Type of the Paper (Article
ArticleEffects of a polysaccharide rich extract derived from Irish sourced Laminaria digitata on the composition and metabolic activity of the human gut microbiota using an in vitro colonic modelConall R. Strain1,2,5, Kenneth C. Collins2, Violetta Naughton1, Emeir M. McSorley1, Catherine Stanton2, Thomas J. Smyth3, Anna Soler-Vila4, Mary C. Rea2, Paul R. Ross2,5, Paul Cherry1,5 and Philip J. Allsopp1*1Nutrition Innovation Centre for Food and Health (NICHE), Ulster University, Coleraine, BT52 1SA, UK2Teagasc Food Research Centre, Moorepark, Fermoy, Ireland.3Department of Life Science, Institute of Technology Sligo, Ireland. 4Irish Seaweed Research Group, Ryan Institute for Environmental, Marine and Energy Research, National University of Ireland, Galway, University Road, Galway, Ireland.5APC Microbiome Institute, University College Cork, Cork, Ireland.Electronic address*Correspondence: pj.allsopp@ulster.ac.uk; Tel.: +44-287-012-3125Academic Editor: nameReceived: date; Accepted: date; Published: dateAbstract:Background:Brown seaweeds are known to be a rich source of fiber with the presence of several non-digestible polysaccharides including laminarin, fucoidan and alginate. These individual polysaccharides have previously been shown to favorably alter the gut microbiota composition and activity albeit the effect of the collective brown seaweed fiber component on the microbiota remains to be determined. Methods:This study investigated the effect of a crude polysaccharide rich extract obtained from Laminaria digitata (CE) and a depolymerized CE extract (DE) on the gut microbiota composition and metabolism using an in vitro faecal batch culture model though metagenomic compositional analysis using 16S rRNA FLX amplicon pyrosequencing and short chain fatty acids (SCFA) analysis using GC-FID. Results:Selective culture analysis showed no significant changes in cultured lactobacilli or bifidobacteria between the CE or DE and the cellulose negative control at any time point measured (0, 5, 10, 24, 36, 48 hours). Following metagenomic analysis, the CE and DE significantly altered the relative abundance of several families including Lachnospiraceae and genera including Streptococcus, Ruminococcus and Parabacteroides of human faecal bacterial populations in comparison to cellulose after 24 hours. The concentrations of acetic acid, propionic acid, butyric acid and total SCFA were significantly higher for both the CE and DE compared to cellulose after 10, 24, 36 and 48 hours fermentation (p<0.05). Furthermore, the acetate:propionate ratio was significantly reduced (p<0.05) for both CD and DE following 24, 36 and 48 hours fermentation. Conclusion:The microbiota associated metabolic and compositional changes noted provide initial indication of putative beneficial health benefits of Laminaria digitata in vitro; however, research is needed to clarify if Laminaria digitata derived fiber can favorably alter the gut microbiota and confer health benefits in vivo. Keywords: Seaweeds, macroalgae, Laminaria digitata, dietary fiber, prebiotic, gut microbiota, short chain fatty acids, Metagenomics1. IntroductionMacroalgae as a food resource remains a substantial component of the human diet with over 2 million kg of edible seaweed harvested globally every year ADDIN EN.CITE <EndNote><Cite><Author>Jensen</Author><Year>1993</Year><RecNum>1</RecNum><DisplayText>[1]</DisplayText><record><rec-number>1</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1428049502">1</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Jensen, A.</author></authors></contributors><auth-address>Jensen, A
Univ Trondheim,Inst Biotechnol,N-7034 Trondheim,Norway
Univ Trondheim,Inst Biotechnol,N-7034 Trondheim,Norway</auth-address><titles><title>Present and Future-Needs for Algae and Algal Products</title><secondary-title>Hydrobiologia</secondary-title><alt-title>Hydrobiologia</alt-title></titles><periodical><full-title>Hydrobiologia</full-title><abbr-1>Hydrobiologia</abbr-1></periodical><alt-periodical><full-title>Hydrobiologia</full-title><abbr-1>Hydrobiologia</abbr-1></alt-periodical><pages>15-23</pages><volume>261</volume><keywords><keyword>seaweeds</keyword><keyword>uses</keyword><keyword>phycocolloids</keyword><keyword>food</keyword><keyword>environmental aspects</keyword></keywords><dates><year>1993</year><pub-dates><date>Jun 18</date></pub-dates></dates><isbn>0018-8158</isbn><accession-num>WOS:A1993LR16800002</accession-num><urls><related-urls><url><Go to ISI>://WOS:A1993LR16800002</url></related-urls></urls><language>English</language></record></Cite></EndNote>[1]. There is increasing interest in the health benefits associated with seaweed consumption, particularly in relation to the reduced risk of age-associated chronic diseases in Japanese populations; where seaweed consumption has been estimated to be as high as 5.3g/d ADDIN EN.CITE <EndNote><Cite><Author>Matsumura</Author><Year>2001</Year><RecNum>4</RecNum><DisplayText>[2]</DisplayText><record><rec-number>4</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1428049715">4</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Matsumura, Y.</author></authors></contributors><auth-address>Matsumura, Y
Natl Inst Hlth & Nutr, Div Adult Hlth Sci, Shijuku Ku, 1-23-1 Toyama, Tokyo 1628636, Japan
Natl Inst Hlth & Nutr, Div Adult Hlth Sci, Shijuku Ku, 1-23-1 Toyama, Tokyo 1628636, Japan
Natl Inst Hlth & Nutr, Div Adult Hlth Sci, Shijuku Ku, Tokyo 1628636, Japan</auth-address><titles><title>Nutrition trends in Japan</title><secondary-title>Asia Pacific Journal of Clinical Nutrition</secondary-title><alt-title>Asia Pac J Clin Nutr</alt-title></titles><periodical><full-title>Asia Pacific Journal of Clinical Nutrition</full-title><abbr-1>Asia Pac J Clin Nutr</abbr-1></periodical><alt-periodical><full-title>Asia Pacific Journal of Clinical Nutrition</full-title><abbr-1>Asia Pac J Clin Nutr</abbr-1></alt-periodical><pages>S40-S47</pages><volume>10</volume><keywords><keyword>food balance sheet</keyword><keyword>food security</keyword><keyword>life-style related diseases</keyword><keyword>national nutrition survey</keyword><keyword>nutrition policy</keyword></keywords><dates><year>2001</year></dates><isbn>0964-7058</isbn><accession-num>WOS:000170005600007</accession-num><urls><related-urls><url><Go to ISI>://WOS:000170005600007</url></related-urls></urls><language>English</language></record></Cite></EndNote>[2]. The high fiber content of seaweed, up to 46g/100g semi-dry sample weight ADDIN EN.CITE <EndNote><Cite><Author>Dawczynski</Author><Year>2007</Year><RecNum>5</RecNum><DisplayText>[3]</DisplayText><record><rec-number>5</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1428050167">5</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Dawczynski, C.</author><author>Schubert, R.</author><author>Jahreis, G.</author></authors></contributors><auth-address>Jahreis, G
Univ Jena, Inst Nutr, Dornburger Str 24, D-07743 Jena, Germany
Univ Jena, Inst Nutr, Dornburger Str 24, D-07743 Jena, Germany
Univ Jena, Inst Nutr, D-07743 Jena, Germany</auth-address><titles><title>Amino acids, fatty acids, and dietary fibre in edible seaweed products</title><secondary-title>Food Chemistry</secondary-title><alt-title>Food Chem</alt-title></titles><periodical><full-title>Food Chemistry</full-title><abbr-1>Food Chem</abbr-1></periodical><alt-periodical><full-title>Food Chemistry</full-title><abbr-1>Food Chem</abbr-1></alt-periodical><pages>891-899</pages><volume>103</volume><number>3</number><keywords><keyword>edible seaweed</keyword><keyword>fat</keyword><keyword>protein</keyword><keyword>fatty acids</keyword><keyword>amino acids</keyword><keyword>dietary fibre</keyword><keyword>cecal microflora</keyword><keyword>marine-algae</keyword><keyword>physicochemical properties</keyword><keyword>undaria-pinnatifida</keyword><keyword>rats</keyword><keyword>proteins</keyword><keyword>nori</keyword><keyword>bioavailability</keyword><keyword>vitamin-b-12</keyword><keyword>macroalgae</keyword></keywords><dates><year>2007</year></dates><isbn>0308-8146</isbn><accession-num>WOS:000245411500029</accession-num><urls><related-urls><url><Go to ISI>://WOS:000245411500029</url></related-urls></urls><electronic-resource-num>DOI 10.1016/j.foodchem.2006.09.041</electronic-resource-num><language>English</language></record></Cite></EndNote>[3], has been suggested to contribute to the health benefits associated with seaweed consumption PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5Ccm93bjwvQXV0aG9yPjxZZWFyPjIwMTQ8L1llYXI+PFJl
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ADDIN EN.CITE.DATA [4]. The health benefits of dietary fiber have been widely recognized, where a daily intake of 25g/day and up to 38 g/day has been recommended by the European Food Safety Authority and US Institute of Medicine, respectively ADDIN EN.CITE <EndNote><Cite><Author>EFSA Panel on Dietetic Products</Author><Year>2010</Year><RecNum>28</RecNum><DisplayText>[5,6]</DisplayText><record><rec-number>28</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1428051720">28</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>EFSA Panel on Dietetic Products, Nutrition and Allergies (NDA)</author></authors></contributors><titles><title>Scientific Opinion on Dietary Reference Values for carbohydrates and dietary fibre</title><secondary-title>EFSA Journal</secondary-title></titles><periodical><full-title>EFSA Journal</full-title></periodical><pages>1462 [77 pp.]. </pages><volume>8</volume><number>3</number><dates><year>2010</year></dates><urls></urls></record></Cite><Cite><Author>Institute of Medicine National Academy of Sciences</Author><Year>2001</Year><RecNum>32</RecNum><record><rec-number>32</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1428053534">32</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Institute of Medicine National Academy of Sciences,</author></authors></contributors><titles><title>Dietary reference intakes: proposed definition of dietary fiber</title><secondary-title>Washington, DC: National Academy Press</secondary-title></titles><periodical><full-title>Washington, DC: National Academy Press</full-title></periodical><dates><year>2001</year></dates><urls></urls></record></Cite></EndNote>[5,6] owing to empirical evidence for dietary fiber in reducing the risk of obesity, type 2 diabetes, and coronary heart disease ADDIN EN.CITE <EndNote><Cite><Author>England</Author><Year>2015</Year><RecNum>299</RecNum><DisplayText>[7]</DisplayText><record><rec-number>299</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1511096661">299</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Public Health England</author></authors></contributors><titles><title>SACN Carbohydrates and Health Report</title></titles><dates><year>2015</year></dates><work-type>Online</work-type><urls><related-urls><url>;[7]. The mechanisms to support a role for fiber in health have been associated with its viscosity and faecal bulking properties which may impact the rate and nature of gastrointestinal digestion/absorption and transit time ADDIN EN.CITE <EndNote><Cite><Author>Lattimer</Author><Year>2010</Year><RecNum>300</RecNum><DisplayText>[8]</DisplayText><record><rec-number>300</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1511096758">300</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Lattimer, J. M.</author><author>Haub, M. D.</author></authors></contributors><auth-address>Department of Human Nutrition, Kansas State University, Manhattan, KS 66506, USA. jml3468@k-state.edu</auth-address><titles><title>Effects of dietary fiber and its components on metabolic health</title><secondary-title>Nutrients</secondary-title><alt-title>Nutrients</alt-title></titles><periodical><full-title>Nutrients</full-title><abbr-1>Nutrients</abbr-1></periodical><alt-periodical><full-title>Nutrients</full-title><abbr-1>Nutrients</abbr-1></alt-periodical><pages>1266-89</pages><volume>2</volume><number>12</number><keywords><keyword>Diabetes Mellitus/prevention & control</keyword><keyword>Dietary Carbohydrates/*classification/metabolism</keyword><keyword>Dietary Fiber/*classification/metabolism</keyword><keyword>Humans</keyword><keyword>Obesity/prevention & control</keyword><keyword>Plants, Edible/*classification/metabolism</keyword><keyword>United States</keyword><keyword>United States Food and Drug Administration</keyword></keywords><dates><year>2010</year><pub-dates><date>Dec</date></pub-dates></dates><isbn>2072-6643 (Electronic)
2072-6643 (Linking)</isbn><accession-num>22254008</accession-num><urls><related-urls><url>;[8]. There is also considerable evidence to support a possible role for fiber in promoting health through its ability to modulate gut microbiota composition and metabolism ADDIN EN.CITE <EndNote><Cite><Author>Slavin</Author><Year>2013</Year><RecNum>50</RecNum><DisplayText>[9]</DisplayText><record><rec-number>50</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1428057119">50</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Slavin, J.</author></authors></contributors><auth-address>Department of Food Science and Nutrition, University of Minnesota, 1334 Eckles Avenue, St. Paul, MN 55344, USA. jslavin@umn.edu</auth-address><titles><title>Fiber and prebiotics: mechanisms and health benefits</title><secondary-title>Nutrients</secondary-title><alt-title>Nutrients</alt-title></titles><periodical><full-title>Nutrients</full-title><abbr-1>Nutrients</abbr-1></periodical><alt-periodical><full-title>Nutrients</full-title><abbr-1>Nutrients</abbr-1></alt-periodical><pages>1417-35</pages><volume>5</volume><number>4</number><keywords><keyword>Animals</keyword><keyword>Cardiovascular Diseases/prevention & control</keyword><keyword>*Diet/adverse effects</keyword><keyword>Dietary Fiber/*administration & dosage/metabolism</keyword><keyword>Fermentation</keyword><keyword>*Health Status</keyword><keyword>Humans</keyword><keyword>Intestines/immunology/metabolism/*microbiology</keyword><keyword>Obesity/prevention & control</keyword><keyword>*Prebiotics</keyword></keywords><dates><year>2013</year><pub-dates><date>Apr</date></pub-dates></dates><isbn>2072-6643 (Electronic)
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ADDIN EN.CITE.DATA [10-13]. The short chain fatty acid (SCFA) microbial metabolites are of particular interest, with suggestions that they can promote health through regulation of gut hormone release, cholesterol synthesis/metabolism, enhanced satiety as well as exerting anticancer and anti-inflammatory effects PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5WaW5vbG88L0F1dGhvcj48WWVhcj4yMDExPC9ZZWFyPjxS
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ADDIN EN.CITE.DATA [14-16]. Each fiber source will exert different effects on the microbiota as the fermentation properties of non-digestible polysaccharides are strongly influenced by the monomer composition, type of bond, and degree of polymerization (DP) PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5FaWxhbTwvQXV0aG9yPjxZZWFyPjIwMTQ8L1llYXI+PFJl
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ADDIN EN.CITE.DATA [9,17]. The majority of research investigating the health benefits associated with fiber and/or its fermentation properties have predominantly focused on cereal and vegetable derived fiber PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5kZSBWcmllczwvQXV0aG9yPjxZZWFyPjIwMTY8L1llYXI+
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ADDIN EN.CITE.DATA [18]. More recently, there is increasing interest in the putative health benefits that may be associated with the fermentation of brown seaweed fiber owing to the presence of polysaccharides not typically present in high amounts in the human diet, including alginates (blocks of 1-4 linked β-mannuronate and α-guluronate glycosides), fucoidan (primarily made up of sulphated 1,2- 1,3- and 1,4- linked α-L-fucose) and laminarins ( a 1-3 linked β-glucan back bone with short 1-6 β-linked side chains) PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5SaW91eDwvQXV0aG9yPjxZZWFyPjIwMDc8L1llYXI+PFJl
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ADDIN EN.CITE.DATA [19-22]. A small number of studies have investigated the effects of the individual polysaccharides derived from brown seaweed on the gut microbiota composition using both in vitro and in vivo methods PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5ZYW1hZGE8L0F1dGhvcj48WWVhcj4xOTkxPC9ZZWFyPjxS
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ADDIN EN.CITE.DATA [23-35]. These studies have provided initial indications of the potential fermentability of these brown seaweed fiber components by the human microbiota. Nevertheless, it must be noted that the fermentation and metabolism of each individual non-digestible polysaccharide is considerably influenced by the availability of other, potentially competing, polysaccharide substrates that may be present in the digesta. In summary, extrapolating the putative health benefits of seaweed fiber from the aforementioned studies which investigated singular polysaccharides is limited by the absence of simultaneous exposure to the numerous polysaccharides present in the seaweed. This study aimed to investigate the fermentation properties of a relatively crude fiber mixture derived from the brown seaweed, Laminaria digitata in an attempt to determine the fermentation properties of the whole fiber component. This study specifically evaluated the effects of a crude polysaccharide rich extract obtained from L. digitata, (CE), and a processed depolymerized CE (DE), both of which were previously subjected to a simulated in vitro digestion, on the microbial composition and metabolic activity of the human gut microbiota, where fructooligosaccharides (FOS) and cellulose served as positive and negative controls, respectively, using an in vitro human colonic model. 2. Materials and Methods 2.1 Harvesting of Laminaria digitataLaminaria digitata was harvested at Finavarra, County Clare, (53.159294, -9.100080) during low tide (12.30pm- 4.00pm) during one day in June 2012. Identification of macroalgae species was carried out on site by a marine biologist (National University of Ireland, Galway). The seaweed was gathered by detaching the holdfast from the rock using a knife, placed in black refuse bags, and transferred within 6 hours to storage at -20°C until processing. 2.2 Polysaccharide extraction2.2.1 Crude seaweed powder productionThe seaweed was washed with fresh water to remove sand and epiphytes and laid onto trays and blast frozen (Blast freezer, New-Avon). The frozen seaweed was freeze-dried (FD80, Cuddon Freeze Dry, New Zealand) and processed in to a powder using a Waring blender (New Hartford, CT, USA) and stored in vacuum-packed bags at -200C prior to extraction.2.2.2 Hot acid extractionGround seaweed was suspended in 0.1M HCl at a ratio of 1:10 (w/v). The extractions were carried out by incubating in an orbital shaker (MaxQ 6000 Shaker; Thermo Fisher Scientific, Dublin, Ireland) at 700C at 175 rpm for three successive time periods of 3, 3 and 24 hours. The extracts were filtered with a muslin bag with the extract removed after each period and fresh solvent added to the retentate. The three extract batches were collated and underwent further filtering with cotton and glass wool using a funnel, Buchner flask and vacuum pump. The filtrates were neutralized with the addition of 20M NaOH and freeze dried (FD80, Cuddon Freeze Dry, New Zealand)4.3 Purification and further processing of extract2.3.1 Ethanol precipitationThe freeze-dried acid extract was dissolved in Milli-Q water (1:2 w/v). This solution was mixed with analytical grade ethanol (1:5 v/v) before centrifugation at 8000g for ten minutes. The supernatant was subsequently discarded and the pellet obtained was allowed to air dry overnight in a fume cabinet before blast freezing and freeze-dried (FD80, Cuddon Freeze Dry, New Zealand) to produce the crude extract (CE). 2.3.2 Soluble and insoluble dietary fibre analysisSoluble dietary fibre (SDF) and insoluble dietary fibre (IDF) was measured according to AOAC 991.43, AACC 32-07.01, NMKL 129,2003 methods using the ANKOM Dietary Fibre analyser (Macedon NY, USA).2.3.2 Depolymerization of extractA sample of CE underwent a depolymerization step using a Fenton’s reaction. CE was dissolved in 0.04% FeSO4 (1:5 w/v) solution to which H2O2 (30% puriss grade) was added (1:40 v/v). The flask was incubated in an orbital shaker (MaxQ 6000 Shaker; Thermo Fisher Scientific, Dublin, Ireland) for 45 minutes at 80oC, 175 rpm. The solution was then blast frozen and freeze-dried (FD80, Cuddon Freeze Dry, New Zealand) to produce the depolymerized CE extract (DE).2.3.3 Simulated human gastrointestinal digestionPrior to carrying out the in vitro digestion both the CE and DE underwent size exclusion dialysis using dialysis tubing with a molecular weight cut off of 1 KDa (Standard RC dialysis tubing, Spectrum labs, Rancho Dominguez, USA). For this, the extracts were dissolved in Milli-Q water (1:1 w/v) and placed within the dialysis tubing. The tubes were closed with clips and placed in 10 L of Milli-Q water and incubated in an orbital shaker (MaxQ 6000 Shaker; Thermo Fisher Scientific, Dublin, Ireland) at 250C, 50 rpm for 72 hours. The water was changed every 24 hours throughout the dialysis. The dialysate was discarded and the remaining extract was freeze-dried (FD80, Cuddon Freeze Dry, New Zealand). A 60 g amount of each sample obtained (>1KDa CE & DE, and cellulose) was suspended in 180 mL of Milli-Q water (1:4 w/v) and added to a 500 mL Erlenmeyer flask to which a 6.25 mL solution of CaCl2 (1mM pH 7) with 20 mg of dissolved α-amylase had been added. The solutions were incubated in an orbital shaker (MaxQ 6000 Shaker; Thermo Fisher Scientific, Dublin, Ireland) at 150 rpm at 37°C for 30 minutes. At completion of the incubation, the solutions were adjusted to pH 2 with concentrated HCl (37% puriss, 12.06 M). A pepsin solution of (2.7 g pepsin in 125 mL of 0.1M HCl) was then added to each sample and the sample solutions were incubated in an orbital shaker (MaxQ 6000 Shaker) at 370C 150 rpm for 2 h. The solutions were neutralized with 1M NaOH and 125 mL of 0.5M NaHCO3 followed by the addition of 560 mg pancreatin and 3.5 g bile extract. The solutions were adjusted to pH 7 with either the addition of 1M HCl or 1M NaOH and further incubated in an orbital shaker (MaxQ 6000 Shaker) at 370C, 150 rpm for 3 hours. The sample solutions (CE, DE and Cellulose) were subsequently transferred into 1 KDa dialysis tubing (Standard RC dialysis tubing, Spectrum labs) and placed in Milli-Q water for 72 hours with the dialysate replaced every 24 h with fresh Milli-Q water. The solutions were then blast frozen and freeze-dried (FD80, Cuddon Freeze Dry, New Zealand) and stored at -200C until use. The controls used in the in vitro study were fructooligosaccharides (FOS) and cellulose. FOS was selected as a positive control as it is a prebiotic fiber, while cellulose was chosen as a negative control as it is poorly fermented. The FOS solution did not undergo the in vitro digestion process as it is known to be resistant to digestion and would not be retained by the 1 KDa molecular weight cut off dialysis tubing. In order to account for any components which may result from the in vitro digestion procedure, an in vitro digestion was carried out without any substrate and the resulting freeze dried material was added to FOS in the correct ratio. 2.4 Faecal fermentations2.4.1 Basal growth mediaThe basal growth medium used was similar to Fooks & Gibson ADDIN EN.CITE <EndNote><Cite><Author>Fooks</Author><Year>2003</Year><RecNum>374</RecNum><DisplayText>[36]</DisplayText><record><rec-number>374</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1511120652">374</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Fooks, L. J.</author><author>Gibson, G. R.</author></authors></contributors><auth-address>School of Animal and Microbial Sciences, The University of Reading, P.O Box 228, Whiteknights, Reading RG6 6AJ, UK. sas01ljf@rdg.ac.uk</auth-address><titles><title>Mixed culture fermentation studies on the effects of synbiotics on the human intestinal pathogens Campylobacter jejuni and Escherichia coli</title><secondary-title>Anaerobe</secondary-title><alt-title>Anaerobe</alt-title></titles><periodical><full-title>Anaerobe</full-title><abbr-1>Anaerobe</abbr-1></periodical><alt-periodical><full-title>Anaerobe</full-title><abbr-1>Anaerobe</abbr-1></alt-periodical><pages>231-42</pages><volume>9</volume><number>5</number><dates><year>2003</year><pub-dates><date>Oct</date></pub-dates></dates><isbn>1075-9964 (Print)
1075-9964 (Linking)</isbn><accession-num>16887709</accession-num><urls><related-urls><url>(03)00043-X</electronic-resource-num></record></Cite></EndNote>[36] (2 g of peptone water (Oxoid thermos Fischer scientific, Renfrew, UK), 2 g of yeast extract (Oxoid thermos Fischer scientific, Renfrew, UK), 0.1 g NaCl, 0.04 g of K2HPO4, 0.04 g of KH2PO4, 0.01 g of CaCl2·6H20, 0.01 g of MgSO4·7H20, 0.2 g of NaHCO3, 2 mL of Tween-80 (Sigma-Aldrich, St Louis, USA), 0.05 g of Hemin (Sigma-Aldrich, St Louis, USA) dissolved in 0.5 mL of 1M NaOH, 10 μL of vitamin K dissolved in 200 μL of ethanol, 0.5 g of cysteine-HCl (Sigma-Aldrich, St Louis, USA), 0.5 g bile salts powder (Oxoid thermos Fischer scientific, Renfrew, UK)). The pH of the media was reduced to 6.8 by the addition of 1M HCl, autoclaved, and allowed to cool to 37oC before use in the experiments. 2.4.2 Faecal sample collection and processingFaecal fermentation experiments were carried out in triplicate on 3 different days. Freshly voided faecal samples from three healthy donors (Male, Caucasian Aged 18-32) were obtained within 1 hour prior to the beginning of each experiment. A 20 g portion of faecal sample of each donor was collected in a stomacher strainer bag (Seward Limited, Worthington, UK) to which 240 mL of autoclaved maximum recovery diluent (MRD, Oxoid Ltd, Hampshire, UK) cysteine-HCl solution was added. The mixture was homogenized using Seward Stomacher 400 circulator machine (Seward Limited, Worthington, UK) at a normal speed for 1 minute.2.4.3 Fermentation vessel set up and samplingThe fermentations were carried out in two Multifors units (four vessels in total; Infors, Bottmingen, Switzerland) with 160 mL of basal growth medium was added to each vessel. Firstly, the vessels were purged with filtered nitrogen gas for 2 hours prior to the addition of the faecal slurry and for the duration of the experiment. After purging 2g of the extracts and controls (2%) were subsequently added to their respective fermentation vessel. The vessels were maintained at 370C and pH 6.8 with stirrers set at 100 rpm. A 40 mL sample of faecal slurry was immediately injected into each vessel. Within two minutes following the addition of faecal slurry, a 13 mL aliquot was removed from each vessel for analysis to represent a baseline (T0), with further samples collected at 5, 10, 24, 36 and 48 h. From each 13 mL sample collected, 2 x 1 mL aliquots were immediately used for culture dependent bacterial enumeration. Also, a 5 mL sample was spun at 15,000 rpm for 5 min, and a total of 3 x 1 mL aliquots of supernatant were removed and stored at -80oC for future short chain fatty acid (SCFA) analysis. For culture independent PCR based GM analysis, 2 x 1 mL from each sample were aliquoted into microtubes and centrifuged at 15,000 rpm, with the supernatant discarded and pellets stored for pyrosequencing and stored at -80oC until analysis.2.5 Enumeration, isolation and identification of Bifidobacteria and Lactobacillus species2.5.1 Sample dilutionA 1 mL aliquot of the fermenter slurry sample was added to 9 mL of sterile MRD (Oxoid Ltd). A serial dilution was carried out by removing 1 mL from the previous tube and adding to the next 9 mL of MRD for a total of seven serial dilutions in duplicate.The dilutions of the samples were then inoculated in duplicate onto selective agars, i.e. Lactobacillus selective (LBS) agar (Difco Becton Dickinson, Franklin Lakes, USA) supplemented with acetic acid (32mM) and MRS agar (Oxoid thermos Fischer scientific, Renfrew, UK) with added 0.2 g of L-cysteine-HCl and 100 x 200 ?g mupirocin discs (Oxoid thermos Fischer scientific, Renfrew, UK). Inoculated LBS-plates were incubated in an anaerobic cabinet at 370C for 120 h while MRS-places were incubated for 72 h before enumerating colonies on a SC6 plus Colony Counter (Stuart equipment, Stone, UK); for confirmation of species, 5 colonies from each plate were randomly selected and gram stained.2.6 Analysis of short chain fatty acids2.6.1 Internal standard and external standard curve generationAs an internal standard, 2-ethyl butyric acid was added to both samples and standard curve solution at 1mM. The seven SCFAs (acetic acid, propionic acid, iso-butyric acid, butyric acid, valeric acid, iso-valeric acid and hexanoic acid at 0.1 mM, 0.5 mM, 1 mM, 2 mM, 4 mM, 8 mM and 10 mM) were used to generate a standard curve. Additional 2 mM SCFA standard vials were used to check for reproducibility. A standard curve and 5 repeat injections of 2 mM SCFA was carried out prior to analysis.2.6.2 Sample processingA 200 ?L sample of fermenter slurry supernatant was added to a 1.5 mL microtube along with 700 ?L of Milli-Q water and 100 ?L of 10 mM of 2-ethyl butyric acid. The samples were spun at 5,000 rpm and the supernatants transferred to a 1.5 mL glass vial (Agilent Technologies, Santa Clara, USA). 2.6.3 GC-FID analysisThe concentration of SCFA was determined by gas chromatography flame ionization detection (GC-FID) using a Varian 3500 GC system, fitted with a TRB-FFAP column (30 m x 0.32 mm x 0.50 μm; Teknokroma, Barcelona, Spain) and a flame ionization detector. Helium was supplied as the carrier gas at an initial flow rate of 1.3 mL/min. The initial oven temperature was 100°C, and was maintained for 0.5 min, and then raised to 180°C at 8°C/min and held for 1.0 min, before being increased to 200°C at 20°C/min, and finally held at 200°C for 5.0 min. The temperatures of the detector and the injection port were set at 250°C and 240°C, respectively. The injected sample volume was 0.5 μL. Peaks were integrated using Varian Star Chromatography Workstation version 6.0 software.2.7 454 pyrosequencing2.7.1 DNA extractionTotal microbial DNA was extracted from pellets of 1 mL of fermenter slurry using a MO BIO PowerFecal DNA isolation kit (Mo Bio, Carlsbad, USA) according to the manufacturer’s instructions. To ensure complete lysis of bacterial cells, an additional heating step was carried out at 90°C for 10 min prior to the bead beating step. The extracted DNA was quantified in triplicate by using a Nanodrop 3300 spectrophotometer (Thermo Scientific, Ireland) and stored at -80°C for future PCR amplification of the V4 amplicon.2.7.2 Generation of 16S rDNA ampliconsPCR amplification of the V4 region was carried out using the KAPA3G Plant PCR kit (Kapa Biosystems, USA). Amplicons of the V4 region were generated by employing one forward i.e. F1 (5’ AYTGGGYDTAAAGNG), and a mix of four reverse primers i.e. R1 (5’ TACCRGGGTHTCTAATCC), R2 (5’ TACCAGAGTATCTAATTC), R3 (5’ CTACDSRGGTMTCTAATC) and R4 (5’ TACNVGGGTATCTAATC). In addition, the F1 contained an A adaptor sequence along with a distinct multiple identifier (MID) for each sample, while the R primers contained a B adaptor. The PCR reactions were carried out on a G-storm PCR machine under the following conditions; heated lid 110°C, 95°C for 10 min followed by 47 cycles of 95°C for 20 sec, 55°C for 15 sec and 72°C for 15 sec followed by a 1 min at 72°C after which the samples were held at 4°C. The PCR reactions had a final volume of 50 ?L and consisted of 25 ?L of KAPA3G Plant PCR buffer, 0.4 ?L of KAPA3G Plant DNA polymerase, 1 ?L of F1 primer (0.15 ?M), 1?L of the R1-4 primers (0.15 ?M), 1 ?L of MgCl2 (to give a final concentration of 2mM), sterile PCR grade water and 2.5 ?L template DNA. PCR products were analyzed by agarose gel electrophoresis (1.5% in 1X TBE buffer + 2 ?L of Midori Green Advance DNA stain (Nippon Genetics)) loading 5 ?L of PCR reaction with 2 ?L of Bioline DNA loading buffer, blue. The remaining PCR reaction product (45 ?L) for each sample was cleaned using Agentcourt AMPure XP kit (Beckman Coulter Genomics, UK) as per manufacturer’s protocol. The cleaned PCR products were eluted in 40 ?L of solution C6 from the PowerFecal kit. The pooled sample underwent further cleaning using the AMPure XP kit and then quantified again with the Quant-iT Picogreen kit. Emulsion based clonal amplification was carried out before sequencing on a Genome Sequencer FLX platform (Roche Diagnostics Ltd, West Sussex, UK) according to the manufacturer’s protocols. Sequencing was carried out at the Teagasc Moorepark Sequencing facility.2.7.3 Bioinformatics analysisQuality trimming of raw sequences was carried out using the QIIME program suite Caporaso et al. (2010b). A minimum quality score of 25 with sequence length of 150bp was employed and any reads below these levels were discarded. Taxonomy was assigned using BLAST ADDIN EN.CITE <EndNote><Cite><Author>Altschul</Author><Year>1990</Year><RecNum>378</RecNum><DisplayText>[37]</DisplayText><record><rec-number>378</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1511812876">378</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Altschul, S. F.</author><author>Gish, W.</author><author>Miller, W.</author><author>Myers, E. W.</author><author>Lipman, D. J.</author></authors></contributors><auth-address>National Center for Biotechnology Information, National Library of Medicine, National Institutes of Health, Bethesda, MD 20894.</auth-address><titles><title>Basic local alignment search tool</title><secondary-title>J Mol Biol</secondary-title><alt-title>Journal of molecular biology</alt-title></titles><periodical><full-title>J Mol Biol</full-title><abbr-1>Journal of molecular biology</abbr-1></periodical><alt-periodical><full-title>J Mol Biol</full-title><abbr-1>Journal of molecular biology</abbr-1></alt-periodical><pages>403-10</pages><volume>215</volume><number>3</number><keywords><keyword>Algorithms</keyword><keyword>Amino Acid Sequence</keyword><keyword>*Base Sequence</keyword><keyword>Databases, Factual</keyword><keyword>*Mutation</keyword><keyword>Sensitivity and Specificity</keyword><keyword>Sequence Homology, Nucleic Acid</keyword><keyword>*Software</keyword></keywords><dates><year>1990</year><pub-dates><date>Oct 05</date></pub-dates></dates><isbn>0022-2836 (Print)
0022-2836 (Linking)</isbn><accession-num>2231712</accession-num><urls><related-urls><url>(05)80360-2</electronic-resource-num></record></Cite></EndNote>[37] referenced against the SILVA SSURef database (version 111) ADDIN EN.CITE <EndNote><Cite><Author>Quast</Author><Year>2013</Year><RecNum>379</RecNum><DisplayText>[38]</DisplayText><record><rec-number>379</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1511812965">379</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Quast, C.</author><author>Pruesse, E.</author><author>Yilmaz, P.</author><author>Gerken, J.</author><author>Schweer, T.</author><author>Yarza, P.</author><author>Peplies, J.</author><author>Glockner, F. O.</author></authors></contributors><auth-address>Microbial Genomics and Bioinformatics Research Group, Max Planck Institute for Marine Microbiology, D-28359 Bremen, Germany.</auth-address><titles><title>The SILVA ribosomal RNA gene database project: improved data processing and web-based tools</title><secondary-title>Nucleic Acids Res</secondary-title><alt-title>Nucleic acids research</alt-title></titles><periodical><full-title>Nucleic Acids Res</full-title><abbr-1>Nucleic acids research</abbr-1></periodical><alt-periodical><full-title>Nucleic Acids Res</full-title><abbr-1>Nucleic acids research</abbr-1></alt-periodical><pages>D590-6</pages><volume>41</volume><number>Database issue</number><keywords><keyword>Archaea/classification/genetics</keyword><keyword>Bacteria/classification/genetics</keyword><keyword>*Databases, Nucleic Acid</keyword><keyword>Eukaryota/genetics</keyword><keyword>*Genes, rRNA</keyword><keyword>High-Throughput Nucleotide Sequencing</keyword><keyword>Internet</keyword><keyword>Software</keyword></keywords><dates><year>2013</year><pub-dates><date>Jan</date></pub-dates></dates><isbn>1362-4962 (Electronic)
0305-1048 (Linking)</isbn><accession-num>23193283</accession-num><urls><related-urls><url>;[38] and OTU alignment was carried using PyNAST Phylogenetic tree ADDIN EN.CITE <EndNote><Cite><Author>Caporaso</Author><Year>2010</Year><RecNum>380</RecNum><DisplayText>[39]</DisplayText><record><rec-number>380</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1511813045">380</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Caporaso, J. G.</author><author>Bittinger, K.</author><author>Bushman, F. D.</author><author>DeSantis, T. Z.</author><author>Andersen, G. L.</author><author>Knight, R.</author></authors></contributors><auth-address>Department of Chemistry and Biochemistry, University of Colorado at Boulder, Boulder, CO, USA.</auth-address><titles><title>PyNAST: a flexible tool for aligning sequences to a template alignment</title><secondary-title>Bioinformatics</secondary-title><alt-title>Bioinformatics</alt-title></titles><periodical><full-title>Bioinformatics</full-title><abbr-1>Bioinformatics</abbr-1></periodical><alt-periodical><full-title>Bioinformatics</full-title><abbr-1>Bioinformatics</abbr-1></alt-periodical><pages>266-7</pages><volume>26</volume><number>2</number><keywords><keyword>Algorithms</keyword><keyword>Databases, Genetic</keyword><keyword>Sequence Alignment/*methods</keyword><keyword>Sequence Analysis, RNA/methods</keyword><keyword>*Software</keyword><keyword>User-Computer Interface</keyword></keywords><dates><year>2010</year><pub-dates><date>Jan 15</date></pub-dates></dates><isbn>1367-4811 (Electronic)
1367-4803 (Linking)</isbn><accession-num>19914921</accession-num><urls><related-urls><url>;[39]. Alpha diversity indices were calculated using QIIME.2.7.4 Statistical analysis.The statistical analysis was carried out on SPSS v18. The independent t test was employed to assess for statistically significant differences between groups, with p < 0.05 considered significant. The Benjamini-Hochberg false discovery rate procedure was applied to sequencing data with Q set at 20%.3. Results3.1 Dietary fibre analysisThe pre simulated digested CE was found to contain 60% soluble dietary fibre and 0.5% insoluble dietary fibre.3.1Effects on bacterial composition as assessed by 454 pyrosequencingAll treatment vessels (Cellulose, FOS, CE and DE) at baseline (0 hours) had similar proportions of phyla with Firmicutes the most abundant (69.67 - 75.881%) followed by Bacteroidetes (19.257 - 26.358 %), Proteobacteria (2.881 - 3.449%) and Actinobacteria (0.873- 1.499%) (Figure 1). Other Phyla such as Cyanobacteria, Fibrobacteres, Fusobacteria, Lentisphaerae, Tenericutes, Verrucomicrobia, RF3 and bacteria unassigned to phyla (no blast hit) were lower in abundance. Figures 1-3 show a graphical representation of the taxa at the Phylum, Family and Genus level at time 0 and after 24 hours of fermentation with the test substrates (Figure 1 – Phylum; Figure 2 – Family; Figure 3 – Genus)There were no significant differences between any test compounds and cellulose for the alpha diversity indices Chao1, Simpson, Shannon, Phylogenetic diversity and number of observed species after 24 hours (Figure 4). There were no significant effects of any test compounds on Firmicutes to Bacteroidetes ratios after 24 hours of fermentation (Figure 4).3.1.1 Crude extract (CE) (Table 1)The Phyla Fibrobacteres was significantly reduced in CE treated vessels in comparison to cellulose treated control vessels (P = 0.026, q=0.018) (see Table 1). At the family level, Porphyromonadaceae (P = 0.043, q=0.014) and Lachnospiraceae (P = 0.015, q=0.004), were significantly increased compared to cellulose. Porphyromonadaceae was the 4th most dominant bacterial family after 24 hours of CE treatment as opposed to the 7th in cellulose treated vessels.). In contrast, Fibrobacteraceae (P = 0.026, q=0.01) and Streptococcaceae (P = 0.025, q=0.007) were both reduced with CE treatment (see Table 1). The increases in Porphyromonadaceae could be attributed to the stimulation of Parabacteroides species which increased significantly compared to control vessels (+ 4.754 % vs. + 0.805 %; P = 0.005, q=0.003) (Table 1). There was a modest but significant increase in an uncultured genera belonging to the B38 Proteobacteria lineage (P = 0.045, q=0.008), and also an increase in Dialister species compared to cellulose treated vessels was noted (P = 0.005, q=0.001). Ruminococcus (P = 0.027, q=0.007), Streptococcus (P = 0.022, q=0.004) and Fibrobacter (P = 0.026, q= 0.005) species were all reduced after 24 hours of fermentation of CE compared to cellulose treated vessels. There was no significant increase of any Lachnospiraceae genera, suggesting that the increases in this family occurred division wide. 3.1.2 Depolymerized extract (DE) (Table 2)In common with CE extract, DE extract had a significant effect on the relative abundance of the genus Parabacteroides (P = 0.017), with DE treatment significantly increasing the relative abundance compared to cellulose (Table 2). DE treatment also had an effect on several families and genera within the Clostridiales order. The relative abundance of the Lachnospiraceae family was significantly higher after 24 hours of fermentation when compared to cellulose (P = 0.039, q=0.007) and within this family there were significant increases in an uncharacterized bacterium with DE treatment compared to cellulose (P = 0.003, q=0.001), although this was a low abundant genera that was not detected at 0 hours in the cellulose vessel. A significant decrease in the relative abundance of the Peptostreptococceae Incertae Sedis family was observed with DE treatment. It should be noted that the relative abundances of the Peptostreptococceae Incertae Sedis family were statistically different at 0 hours between DE and cellulose. As with the CE treatment, the relative abundance of Dialister was significantly higher with DE treatment compared to cellulose (P = 0.008, q=0.003). The relative abundance of the Alcaligenaceae family belonging to the Proteobacteria Phyla was significantly reduced compared to cellulose (P = 0.03, q=0.004).3.1.3 Fructooligosaccharides (Table 3)FOS fermented vessels had significantly lower proportions of Proteobacteria (P = 0.043, q=0.018), with significantly lower representations of Alcaligenaceae (P = 0.01, q=0.007) compared to cellulose. The reduction in Alcaligenaceae abundance was mostly owing to reductions in the relative abundance of Sutterella (P = 0.03, q=0.009) compared to cellulose. There was a significant reduction in the relative abundance of the gamma Proteobaceria genus Cronobacter (P = 0.019, q=0.004). FOS fermentation significantly decreased the relative abundance of two Bacteroidetes genera belonging to the Porphyromonadaceae family, Butyricimonas (P = 0.03, q=0.008) and Parabacteroides (P = 0.023, q=0.007). Within the Firmicutes phylum, FOS treatment resulted in a significant reduction in Streptococcus (P = 0.023, q=0.005), Christensenella (P = 0.033, q=0.01) and Flavonifractor (P = 0.047, q=0.012) and an increase in the relative abundance of Lachnospiraceae (P = 0.009, q=0.004) and a poorly understood family (P = 0.032, q=0.014) and genus (P = 0.016, q=0.003) belonging to the Clostridiales Family XIII, when compared to cellulose.3.2Effects on culture dependent Lactobacillus and Bifidobacteria populationsNeither CE nor DE stimulated cultivable Lactobacillus or Bifidobacteria species numbers at any time point. FOS was found to significantly (P = 0.044) increase cultivable Bifidobacteria populations after 10 hours compared to cellulose control.3.3Effects on short chain fatty acid production3.3.1 Crude extract (CE) (Table 4)Within 5 hours of fermentation of the CE, propionic acid concentrations were significantly increased (P = 0.003), and remained significantly higher over all subsequent time points in comparison to the cellulose control. Propionic acid concentrations in the CE treated vessels were similar to that of the FOS treated vessels for all time points assessed. After 10 hours of CE fermentation, acetic acid (P = 0.001), butyric acid (P = 0.031), and total SCFA (P = 0.002) concentrations were also significantly higher than cellulose. Concentrations of acetic acid, butyric acid, and total SCFA were significantly higher with CE treatment compared to cellulose for all subsequent time points. The acetate:propionate ratio was significantly lower than the cellulose control following 24, 36 and 48 hours of fermentation (P<0.05) (Figure 5). There were no significant differences in the concentration of valeric acid, hexanoic acid, the individual branch chained SCFAs iso-butyric acid and iso-valeric acid, nor total branched SCFA and between CE and cellulose at any time point. When compared to FOS, CE fermentation produced significantly lower levels of acetic acid after 5 (P = 0.013) and 10 hours (P = 0.021) of fermentation with no significant difference observed between CE and FOS after 24, 36 and 48 hours of fermentation. Butyric acid concentrations were significantly lower with CE fermentation after 5 (P = 0.002), 10 (P = 0.017) and 24 (P = 0.042) hours compared to FOS, but no significant difference was noted after 36 and 48 hours of fermentation. Total SCFA concentrations were significantly lower after 5, 10, 24 and 36 hours with CE compared to FOS, yet total SCFA concentrations were similar after 48 hours of fermentation. Propionic acid, iso-butyric acid, valeric acid, iso-valeric acid and hexanoic acid concentrations with CE treatment were similar to FOS over all time points assessed, with no significant differences noted. 3.3.2 Depolymerized extract (DE) (Table 4)Within five hours of fermentation of the DE extract the concentration of propionic acid was significantly higher than in cellulose vessels (P = 0.004) and the concentration of propionic acid was significantly higher compared to cellulose for all the subsequent time points. Propionic acid concentrations were similar to FOS at all time points. The concentrations of acetic acid, propionic acid, butyric acid, and total SCFA were significantly higher with DE treatment compared to cellulose after ten hours and for all subsequent time points. The acetate:propionate ratio was shown to be significantly lower than the cellulose control following 10, 24, 36 and 48 hours (P<0.05) (Figure 5). There were no significant differences in the concentration of total branched SCFA, the individual branch chained SCFAs iso-butyric acid and iso-valeric acid or valeric acid and hexanoic acid SCFAs between CE and cellulose at any time point. Compared to FOS, acetic acid and total SCFA concentrations were significantly lower after 5 hours of fermentation (P = 0.028 and P = 0.009, respectively), but not after 10, 24, 36 and 48 hours of DE fermentation. Butyric acid concentrations were significantly lower compared to FOS for all the time points assessed. 3.3.3 Fructooligosaccharides (FOS) (Table 4)Within 5 hours of incubation, FOS was observed to significantly increase the concentration of acetic acid (P = 0.005), propionic acid (P = 0.035), butyric acid (P < 0.001), and total SCFA (P < 0.001) compared to cellulose. The concentrations were significantly higher for all subsequent time points. There was no difference in branched chained SCFA with FOS fermentation compared to cellulose.4. DiscussionThis study has provided clear indications that crude and depolymerized non-digestible components of L. digitata (CE & DE) are fermented by human faecal bacterial populations. This was evidenced by significant increases in acetate, butyrate and total short chain fatty acids after 10 hours fermentation with CE, as well as DE compared to cellulose (Table 4), and was shown to continue for the majority of the remaining incubation time in the experiment. The culture dependent microbial analysis showed that neither CE nor DE stimulated Lactobacilli or Bifidobacteria populations. The culture independent sequencing of the 16S region revealed a number of changes at the family and genus level when compared to cellulose, including the stimulation of Parabacteroides, Dialister and Lachnospiraceae populations, each of which have been shown to be reduced in IBD associated dysbiosis, with Lachnospiraeae also suggested to be protective against colon cancer PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5Ob29yPC9BdXRob3I+PFllYXI+MjAxMDwvWWVhcj48UmVj
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ADDIN EN.CITE.DATA [40-42].The ability of the microbiota to utilize the seaweed fiber components as an energy source is primarily dictated by the presence of enzymes which can hydrolyze the various glycosidic bonds throughout the fiber structure PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5QYXRyYXNjdTwvQXV0aG9yPjxZZWFyPjIwMTc8L1llYXI+
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ADDIN EN.CITE PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5QYXRyYXNjdTwvQXV0aG9yPjxZZWFyPjIwMTc8L1llYXI+
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ADDIN EN.CITE.DATA [43]. There are numerous in vitro human faecal batch culture experiments previously carried out on each individual seaweed fiber (alginate/laminarin/fucoidan), and these studies have demonstrated that both alginate and laminarin fibers can be efficiently fermented by the human microbiota PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5NaWNoZWw8L0F1dGhvcj48WWVhcj4xOTk2PC9ZZWFyPjxS
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ADDIN EN.CITE.DATA [24,25,31-35,44,45]. These observations are supported by previous reports that Bacteroides species from the human microbiota possess the hydrolytic enzymes, β-glucanase and alginate lyase, which are able to breakdown the linkages that make up laminarin and alginate, respectively, and have been noted in both Asian and Western populations PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5TYWx5ZXJzPC9BdXRob3I+PFllYXI+MTk3NzwvWWVhcj48
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ADDIN EN.CITE.DATA [31,46-48]. There is evidence from a murine study to show that fucoidan can also modulate the composition and metabolic activity of the gut microbiota. Dietary supplementation of a 50KDa fucoidan fraction in combination with the chemotherapeutic drug associated with gut mucosal damage, cyclophosphamide, was found to increase Coprococcus, Rikenella, and Butyricicoccus species and increase total SCFA, propionate and butyrate concentrations in feces. Whether the effects on gut microbiota composition and metabolic activity are through fucoidan fermentation or through protection against mucosal damage from cyclophosphamide supplementation remains to be elucidated. The degradation of polysaccharides by the microbiota can ultimately lead to metabolism/cross metabolism of the released monomers to produce a range of microbial products, including short chain fatty acids amongst others ADDIN EN.CITE <EndNote><Cite><Author>Michel</Author><Year>1996</Year><RecNum>322</RecNum><DisplayText>[49]</DisplayText><record><rec-number>322</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1511103491">322</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Michel, C.</author><author>Macfarlane, G. T.</author></authors></contributors><auth-address>Medical Research Council, Dunn Clinical Nutrition Centre, Cambridge, UK.</auth-address><titles><title>Digestive fates of soluble polysaccharides from marine macroalgae: involvement of the colonic microflora and physiological consequences for the host</title><secondary-title>J Appl Bacteriol</secondary-title><alt-title>The Journal of applied bacteriology</alt-title></titles><periodical><full-title>J Appl Bacteriol</full-title><abbr-1>The Journal of applied bacteriology</abbr-1></periodical><alt-periodical><full-title>J Appl Bacteriol</full-title><abbr-1>The Journal of applied bacteriology</abbr-1></alt-periodical><pages>349-69</pages><volume>80</volume><number>4</number><keywords><keyword>Agar/metabolism</keyword><keyword>Alginates/metabolism</keyword><keyword>Bacteria/*metabolism</keyword><keyword>Carcinogens/pharmacology</keyword><keyword>Carrageenan/metabolism/pharmacology/toxicity</keyword><keyword>Colon/*microbiology</keyword><keyword>*Digestion</keyword><keyword>Eukaryota/*chemistry</keyword><keyword>Humans</keyword><keyword>Marine Biology</keyword><keyword>Polysaccharides/*metabolism/pharmacology/toxicity</keyword></keywords><dates><year>1996</year><pub-dates><date>Apr</date></pub-dates></dates><isbn>0021-8847 (Print)
0021-8847 (Linking)</isbn><accession-num>8849638</accession-num><urls><related-urls><url>;[49]. The failure to degrade fucoidan may limit its potential impact on the microbiota and thus any noted changes would be independent of its catabolism and fermentation. The current study undertaken did not characterize the polysaccharide structural composition of either CE or DE, however the increasing SCFA production following incubation with the human faecal matter in the fermenter would suggest the bacteria present in the human microbiota possess the enzymes capable of degrading at least some of the complex polysaccharides present in the seaweed extract. The fermentation of both extracts resulted in significant increases in propionic acid compared to cellulose and were both similar to the prebiotic FOS with respect to propionic acid production after 5 hours of fermentation and for all subsequent time points. Acetic acid, butyric acid, and total SCFA concentrations were significantly higher with both CE and DE compared to cellulose after 10 hours of fermentation. CE fermentation resulted in similar amounts of acetic acid and butyric acid as FOS after 24 and 36 hours of fermentation, respectively, and for subsequent time points. DE fermentation resulted in increases in acetic acid and total SCFA which were comparable with those produced by FOS after 10 hours of fermentation and for all subsequent time points. Both extracts were shown to significantly reduce the acetate to propionate ratio after 24 hours, which persisted for the remainder of the experiment. This could hold significance in light of recent research that has implicated a reduced acetate to propionate ratio with lipogenesis PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5XZWl0a3VuYXQ8L0F1dGhvcj48WWVhcj4yMDE3PC9ZZWFy
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ADDIN EN.CITE.DATA [52]. The fermentation patterns noted in the current study are comparable to previous studies that have investigated the fermentability of individual seaweed polysaccharides in both in vitro human faecal fermentation experiments and in vivo animal models PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5EZXZpbGzDqTwvQXV0aG9yPjxZZWFyPjIwMDQ8L1llYXI+
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ADDIN EN.CITE.DATA [24,25,31-35,44] and demonstrated that brown seaweed derived polysaccharides increased the production of acetic acid, propionic acid, butyric acid as well as total SCFA. The crude polysaccharide extracts (CE, DE) used in the current study exhibited a lag effect, with the production of most of the SCFA occurring after 10 hours and not 5 hours. This lag effect has previously been reported with alginate ADDIN EN.CITE <EndNote><Cite><Author>Kuda</Author><Year>2005</Year><RecNum>260</RecNum><DisplayText>[44]</DisplayText><record><rec-number>260</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1438448091">260</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Kuda, Takashi</author><author>Yano, Toshihiro</author><author>Matsuda, Noriko</author><author>Nishizawa, Makoto</author></authors></contributors><titles><title>Inhibitory effects of laminaran and low molecular alginate against the putrefactive compounds produced by intestinal microflora in vitro and in rats</title><secondary-title>Food Chemistry</secondary-title></titles><periodical><full-title>Food Chemistry</full-title><abbr-1>Food Chem</abbr-1></periodical><pages>745-749</pages><volume>91</volume><number>4</number><keywords><keyword>Laminaran</keyword><keyword>Alginate</keyword><keyword>Intestinal microflora</keyword><keyword>Putative risk markers</keyword><keyword>Rats</keyword></keywords><dates><year>2005</year><pub-dates><date>8//</date></pub-dates></dates><isbn>0308-8146</isbn><urls><related-urls><url>;[44], which is known to be a major polysaccharide component present in L. digitata PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5TY2hpZW5lcjwvQXV0aG9yPjxZZWFyPjIwMTU8L1llYXI+
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ADDIN EN.CITE.DATA [53]. This lag effect of fermentation may be attributed to the adaption of the faecal bacterial species to a novel carbon source PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5NYWRhcjwvQXV0aG9yPjxZZWFyPjIwMTM8L1llYXI+PFJl
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ADDIN EN.CITE PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5NYWRhcjwvQXV0aG9yPjxZZWFyPjIwMTM8L1llYXI+PFJl
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ADDIN EN.CITE.DATA [54]. The higher production of propionate noted during DE fermentation compared to CE after 5 hours is likely owing to the lower molecular weight polysaccharides (>1KDa), with alginate a probable candidate PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5LdWRhPC9BdXRob3I+PFllYXI+MjAwNTwvWWVhcj48UmVj
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ADDIN EN.CITE.DATA [31,34,44]. The CE treatment had significantly higher concentrations of butyrate after 48 hours of fermentation compared to DE, suggesting a more sustained, slower fermentation profile which would be expected with more complex, higher molecular weight polysaccharides PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5TYXJiaW5pPC9BdXRob3I+PFllYXI+MjAxMTwvWWVhcj48
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ADDIN EN.CITE PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5TYXJiaW5pPC9BdXRob3I+PFllYXI+MjAxMTwvWWVhcj48
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ADDIN EN.CITE.DATA [55]. Previous batch fermentation studies have demonstrated that laminarin and alginate individually increase SCFA concentrations during batch culture fermentations whilst fucoidan would appear to have limited impact PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5LdWRhPC9BdXRob3I+PFllYXI+MjAwNTwvWWVhcj48UmVj
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ADDIN EN.CITE.DATA [24,25]. The first study ADDIN EN.CITE <EndNote><Cite><Author>Michel</Author><Year>1996</Year><RecNum>243</RecNum><DisplayText>[24]</DisplayText><record><rec-number>243</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1437482192">243</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Michel, C.</author><author>Lahaye, M.</author><author>Bonnet, C.</author><author>Mabeau, S.</author><author>Barry, J. L.</author></authors></contributors><auth-address>Centres d'Etudes et de Valorisation des Algues, Pleubian, France.</auth-address><titles><title>In vitro fermentation by human faecal bacteria of total and purified dietary fibres from brown seaweeds</title><secondary-title>Br J Nutr</secondary-title><alt-title>The British journal of nutrition</alt-title></titles><periodical><full-title>Br J Nutr</full-title><abbr-1>The British journal of nutrition</abbr-1></periodical><alt-periodical><full-title>Br J Nutr</full-title><abbr-1>The British journal of nutrition</abbr-1></alt-periodical><pages>263-80</pages><volume>75</volume><number>2</number><keywords><keyword>Alginates/metabolism</keyword><keyword>Bacteria, Anaerobic/*metabolism</keyword><keyword>Dietary Fiber/*metabolism</keyword><keyword>Fatty Acids, Volatile/metabolism</keyword><keyword>Feces/*microbiology</keyword><keyword>Fermentation</keyword><keyword>Humans</keyword><keyword>In Vitro Techniques</keyword><keyword>Seaweed/*metabolism</keyword></keywords><dates><year>1996</year><pub-dates><date>Feb</date></pub-dates></dates><isbn>0007-1145 (Print)
0007-1145 (Linking)</isbn><accession-num>8785203</accession-num><urls><related-urls><url>;[24] found that L. digitata fiber fermentation appeared to alter individual SCFA ratios as well as increase total SCFA concentrations with a similar lag period noted in this study. While the second study ADDIN EN.CITE <EndNote><Cite><Author>Devillé</Author><Year>2004</Year><RecNum>71</RecNum><DisplayText>[25]</DisplayText><record><rec-number>71</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1434824701">71</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Devillé, Christelle</author><author>Damas, Jacques</author><author>Forget, Philippe</author><author>Dandrifosse, Guy</author><author>Peulen, Olivier</author></authors></contributors><titles><title>Laminarin in the dietary fibre concept</title><secondary-title>Journal of the Science of Food and Agriculture</secondary-title></titles><periodical><full-title>Journal of the Science of Food and Agriculture</full-title><abbr-1>J Sci Food Agr</abbr-1></periodical><pages>1030-1038</pages><volume>84</volume><number>9</number><keywords><keyword>seaweed</keyword><keyword>dietary fibre</keyword><keyword>gastrointestinal tract</keyword><keyword>transit</keyword><keyword>intestinal motility</keyword></keywords><dates><year>2004</year></dates><publisher>John Wiley & Sons, Ltd.</publisher><isbn>1097-0010</isbn><urls><related-urls><url>;[25] did not assess effects on SCFA, the authors observed that laminarin was fermented after a 24 hour incubation. Collectively, it is likely that the fermentation of both alginate and laminarin is contributing to the potential prebiotic effect of increasing both butyrate and propionate production observed in the current study.Neither the CE nor DE extract stimulated cultivable Lactobacillus or Bifidobacteria species, and this lack of effect was also reported in a study by Deville et al. ADDIN EN.CITE <EndNote><Cite><Author>Devillé</Author><Year>2004</Year><RecNum>71</RecNum><DisplayText>[25]</DisplayText><record><rec-number>71</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1434824701">71</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Devillé, Christelle</author><author>Damas, Jacques</author><author>Forget, Philippe</author><author>Dandrifosse, Guy</author><author>Peulen, Olivier</author></authors></contributors><titles><title>Laminarin in the dietary fibre concept</title><secondary-title>Journal of the Science of Food and Agriculture</secondary-title></titles><periodical><full-title>Journal of the Science of Food and Agriculture</full-title><abbr-1>J Sci Food Agr</abbr-1></periodical><pages>1030-1038</pages><volume>84</volume><number>9</number><keywords><keyword>seaweed</keyword><keyword>dietary fibre</keyword><keyword>gastrointestinal tract</keyword><keyword>transit</keyword><keyword>intestinal motility</keyword></keywords><dates><year>2004</year></dates><publisher>John Wiley & Sons, Ltd.</publisher><isbn>1097-0010</isbn><urls><related-urls><url>;[25]. In contrast, others have found a stimulating effect with alginate oligosaccharides on Lactobacillus and Bifidobacteria, both with in vitro human faecal fermentations and when fed to rats ADDIN EN.CITE <EndNote><Cite><Author>Wang</Author><Year>2006</Year><RecNum>294</RecNum><DisplayText>[56]</DisplayText><record><rec-number>294</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1453988796">294</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Wang, Ye</author><author>Han, Feng</author><author>Hu, Bin</author><author>Li, Jingbao</author><author>Yu, Wengong</author></authors></contributors><titles><title>In vivo prebiotic properties of alginate oligosaccharides prepared through enzymatic hydrolysis of alginate</title><secondary-title>Nutrition Research</secondary-title></titles><periodical><full-title>Nutrition Research</full-title></periodical><pages>597-603</pages><volume>26</volume><number>11</number><keywords><keyword>Alginate oligosaccharides (AOS)</keyword><keyword>Prebiotic</keyword><keyword>Bifidobacteria</keyword><keyword>Lactobacilli</keyword><keyword>Rat</keyword></keywords><dates><year>2006</year><pub-dates><date>11//</date></pub-dates></dates><isbn>0271-5317</isbn><urls><related-urls><url>;[56]. The size exclusion filtration carried out on the extract used in this study may have removed these oligosaccharides (<1KDa) and thus could explain the lack of effect seen in this study. In the current study, FOS treatment was observed to significantly increase cultivable Bifidobacteria but not Lactobacillus, whereas another study has reported that Lactobacillus and not Bifidobacteria populations were increased with FOS ADDIN EN.CITE <EndNote><Cite><Author>Devillé</Author><Year>2004</Year><RecNum>71</RecNum><DisplayText>[25]</DisplayText><record><rec-number>71</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1434824701">71</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Devillé, Christelle</author><author>Damas, Jacques</author><author>Forget, Philippe</author><author>Dandrifosse, Guy</author><author>Peulen, Olivier</author></authors></contributors><titles><title>Laminarin in the dietary fibre concept</title><secondary-title>Journal of the Science of Food and Agriculture</secondary-title></titles><periodical><full-title>Journal of the Science of Food and Agriculture</full-title><abbr-1>J Sci Food Agr</abbr-1></periodical><pages>1030-1038</pages><volume>84</volume><number>9</number><keywords><keyword>seaweed</keyword><keyword>dietary fibre</keyword><keyword>gastrointestinal tract</keyword><keyword>transit</keyword><keyword>intestinal motility</keyword></keywords><dates><year>2004</year></dates><publisher>John Wiley & Sons, Ltd.</publisher><isbn>1097-0010</isbn><urls><related-urls><url>;[25]. 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ADDIN EN.CITE.DATA [31,57], which allow them to catabolize the wide range of polysaccharides present in the human diet. Therefore, it is not surprising that the polysaccharide rich seaweed extracts were found to significantly increase genera belonging to this phylum. The ability of both extracts to significantly increase the relative abundance of bacteria from the genus Parabacteriodes was also observed in another study in which laminarin was fed to rats PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5BbjwvQXV0aG9yPjxZZWFyPjIwMTM8L1llYXI+PFJlY051
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ADDIN EN.CITE.DATA [30]. The authors noted that the species Parabacteroides distasonis was only detected in the laminarin supplemented rats and not alginate supplemented or control fed rats. This finding would strongly suggest that the Parabacteroides stimulating effect noted in the current study is likely to be attributable to laminarin. A recent study highlighted the potential immunomodulatory effect of Parabacteroides distasonis in DSS-induced colitis in mice PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5LdmVya2E8L0F1dGhvcj48WWVhcj4yMDExPC9ZZWFyPjxS
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Tm90ZT4A
ADDIN EN.CITE.DATA [59,60]. The increase in SCFA production observed with the extracts in this study could, in part, be attributed to bacteria belonging to this family. The observed depletion of Lachnospiraceae members in colon cancer has led to speculation that some of its members may confer protection against colon cancer through the production of butyrate, which is known to exert a range of anticancer activities ADDIN EN.CITE <EndNote><Cite><Author>Louis</Author><Year>2014</Year><RecNum>356</RecNum><DisplayText>[61]</DisplayText><record><rec-number>356</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1511109794">356</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Louis, P.</author><author>Hold, G. L.</author><author>Flint, H. J.</author></authors></contributors><auth-address>Microbiology Group, Rowett Institute of Nutrition and Health, University of Aberdeen, Greenburn Road, Bucksburn, Aberdeen AB21 9SB, UK.
Gastrointestinal Research Group, Division of Applied Medicine, University of Aberdeen, Foresterhill, Aberdeen, AB25 2ZD, UK.</auth-address><titles><title>The gut microbiota, bacterial metabolites and colorectal cancer</title><secondary-title>Nat Rev Microbiol</secondary-title><alt-title>Nature reviews. Microbiology</alt-title></titles><alt-periodical><full-title>Nature reviews. Microbiology</full-title></alt-periodical><pages>661-72</pages><volume>12</volume><number>10</number><keywords><keyword>Bacteria/*growth & development/*metabolism</keyword><keyword>Colorectal Neoplasms/epidemiology/*etiology/*prevention & control</keyword><keyword>Diet/*methods</keyword><keyword>Gastrointestinal Tract/*microbiology</keyword><keyword>Humans</keyword></keywords><dates><year>2014</year><pub-dates><date>Oct</date></pub-dates></dates><isbn>1740-1534 (Electronic)
1740-1526 (Linking)</isbn><accession-num>25198138</accession-num><urls><related-urls><url>;[61]. The stimulating effect of DE on bacteria from the Dialister genus was also found to be inversely associated with IL-6 in humans who were fed a fiber-rich diet from whole grains ADDIN EN.CITE <EndNote><Cite><Author>Martínez</Author><Year>2013</Year><RecNum>289</RecNum><DisplayText>[62]</DisplayText><record><rec-number>289</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1439813773">289</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Martínez, Inés</author><author>Lattimer, James M.</author><author>Hubach, Kelcie L.</author><author>Case, Jennifer A.</author><author>Yang, Junyi</author><author>Weber, Casey G.</author><author>Louk, Julie A.</author><author>Rose, Devin J.</author><author>Kyureghian, Gayaneh</author><author>Peterson, Daniel A.</author><author>Haub, Mark D.</author><author>Walter, Jens</author></authors></contributors><titles><title>Gut microbiome composition is linked to whole grain-induced immunological improvements</title><secondary-title>The ISME Journal</secondary-title></titles><periodical><full-title>The ISME Journal</full-title></periodical><pages>269-280</pages><volume>7</volume><number>2</number><dates><year>2013</year><pub-dates><date>10/04
12/16/received
08/08/revised
08/09/accepted</date></pub-dates></dates><publisher>Nature Publishing Group</publisher><isbn>1751-7362
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ADDIN EN.CITE.DATA [63,64]. The extracts in the current study were subjected to a simulated in vitro digestion followed by size exclusion chromatography with a molecular weight cut off of 1KDa prior to use in the colon model. The simulated digestion used in the current study provided indications that digestion resistant polysaccharides present within the CE and DE extract had the potential to be extensively fermented by the human microbiota, which corroborates previous studies which have demonstrated that isolated laminarin, fucoidan and alginate are resistant to simulated gastrointestinal digestion ADDIN EN.CITE <EndNote><Cite><Author>Zaporozhets</Author><Year>2014</Year><RecNum>259</RecNum><DisplayText>[45]</DisplayText><record><rec-number>259</rec-number><foreign-keys><key app="EN" db-id="09trdazvmvx0fxet9pa50pxw5sv222z0s595" timestamp="1438445801">259</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Zaporozhets, T. S.</author><author>Besednova, N. N.</author><author>Kuznetsova, T. A.</author><author>Zvyagintseva, T. N.</author><author>Makarenkova, I. D.</author><author>Kryzhanovsky, S. P.</author><author>Melnikov, V. G.</author></authors></contributors><titles><title>The prebiotic potential of polysaccharides and extracts of seaweeds</title><secondary-title>Russian Journal of Marine Biology</secondary-title><alt-title>Russ J Mar Biol</alt-title></titles><periodical><full-title>Russian Journal of Marine Biology</full-title><abbr-1>Russ J Mar Biol</abbr-1></periodical><alt-periodical><full-title>Russian Journal of Marine Biology</full-title><abbr-1>Russ J Mar Biol</abbr-1></alt-periodical><pages>1-9</pages><volume>40</volume><number>1</number><keywords><keyword>prebiotics, bifidobacteria, microbiota, gastrointestinal tract, extracts, polysaccharides, seaweeds, synbiotics</keyword></keywords><dates><year>2014</year><pub-dates><date>2014/01/01</date></pub-dates></dates><publisher>Pleiades Publishing</publisher><isbn>1063-0740</isbn><urls><related-urls><url>;[45]. However, whilst the dialysis step in the simulated digestion removes contents unlikely to be available in the colon, it may also remove colon available non-digestible low molecular weight oligosaccharides such as those derived from alginate and laminarin. This presents an additional limitation to this in vitro study. 5. ConclusionsIn conclusion, this study provides evidence that polysaccharide rich extracts from Laminaria digitata are both resistant to human digestive enzymes and are fermentable by human faecal bacterial populations. The demonstration that both extracts altered the metabolic activity of human faecal microbial populations in a way which might confer health benefits illustrates the potential of this seaweed extract to improve health and wellbeing. Further work is warranted to assess whether these changes in both bacterial composition and metabolic activity occur in vivo, and critically, whether such changes can confer health benefits to the host in order to clarify the potential of Laminaria digitata as a source material for the crude extraction of fermentable polysaccharide fibres as a functional food ingredient. Acknowledgments: This project (Grant-Aid Agreement No. MFFRI/07/01) was carried out under the Sea Change Strategy with the support of the Marine Institute and the Department of Agriculture, Food and the Marine, funded under the National Development Plan 2007–2013.Author Contributions: “P.A., E.M., C.S., C.R.S, P.R. and V.N. conceived and designed the experiments; C.R.S., K.C. & P.C. performed the experiments; . P.A., E.M., C.S., C.R.S, P.R. analyzed the data; V.N., A.S-V, E.M., C.S., & P.R. contributed reagents/materials/analysis tools; C.R.S, E.M, V.N & P.A. wrote the paper.” Authorship must be limited to those who have contributed substantially to the work reported. Conflicts of Interest: On behalf of all authors, the corresponding author states that there is no conflict of interest.References ADDIN EN.REFLIST 1.Jensen A (1993) Present and Future-Needs for Algae and Algal Products. Hydrobiologia 261:15-232.Matsumura Y (2001) Nutrition trends in Japan. Asia Pac J Clin Nutr 10:S40-S473.Dawczynski C, Schubert R, Jahreis G (2007) Amino acids, fatty acids, and dietary fibre in edible seaweed products. Food Chem 103 (3):891-899. doi:DOI 10.1016/j.foodchem.2006.09.0414.Brown EM, Allsopp PJ, Magee PJ, Gill CIR, Nitecki S, Strain CR, McSorley EM (2014) Seaweed and human health. 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Gut 60 (5):631-637. doi:10.1136/gut.2010.223263Figure 1: Mean relative abundances of the 5 most abundant bacteria phyla of Cellulose (Cell), Fructooligosaccharides (FOS), Laminaria digitata crude polysaccharide rich extract (CE) and Laminaria digitata depolymerized polysaccharide rich extract (DE) (1%) treated faecal fermentation vessels (n=3) at 0 and 24 hours. Bacterial composition was assessed by 16S rDNA sequencing using 454 FLX technology and bacteria were assigned to their Phyla. The remaining Phyla were combined and represented within the group “Other”.Figure 2: Mean relative abundances of bacteria families of Cellulose (Cell), Fructooligosaccharides (FOS), Laminaria digitata crude polysaccharide rich extract (CE) and Laminaria digitata depolymerized polysaccharide rich extract (DE) (1%) treated faecal fermentation vessels (n=3) at 0 and 24 hours. Bacterial composition was assessed by 16S rDNA sequencing using 454 FLX technology and bacteria were assigned to their family. Any families < 1% relative abundance were combined and represented as other.Figure 3: Mean relative abundances of bacteria genera of Cellulose (Cell), Fructooligosaccharides (FOS), Laminaria digitata crude polysaccharide rich extract (CE) and Laminaria digitata depolymerized polysaccharide rich extract (DE) (1%) treated faecal fermentation vessels (n=3) at 0 and 24 hours. Bacterial composition was assessed by 16S rDNA sequencing using 454 FLX technology and bacteria were assigned to their genera. Any genera < 1% relative abundance were combined and represented as other.Figure 4: Mean alpha diversity indices and Firmicutes: Bacteriodetes ratios of Cellulose (Cell), Fructooligosaccharides (FOS), Laminaria digitata crude polysaccharide rich extract (CE) and Laminaria digitata depolymerized polysaccharide rich extract (DE) (1%) treated faecal fermentation vessels (n=3) after 24 hours. Bacterial composition was assessed by 16S rDNA sequencing using 454 FLX technology and alpha diversity indices were calculated using QIIME.Figure 5: The effects of 1% (w/v) Cellulose (Cell); Fructooligosaccharides (FOS); Crude polysaccharide rich extract (CE); and Depolymerized Crude polysaccharide rich extract extract (DE), on the Acetate to Propionate ratio of batch culture ferementate after 5 (A), 10 (B), 24 (C), 36 (D) and 48 (E) hours of incubation under anaerobic conditions at 37oC. SCFA concentrations of each supernatant were assessed using a GC-FID. Significant differences in the acetate to propionate ratio between cellulose and each treatment (FOS, DE, CE) at each time point was determined using an independent t test. * = P < 0.05 (n=3).Table 1: Significant differences induced by Crude polysaccharide rich extract (CE) treatment on bacterial Phyla, Families and Genera.0 hrs24 hrsΔEffectPCellulose (%)CE (%)Cellulose (%)CE (%)CelluloseCEPhylumFibrobacteres0 (0)0.009 (0.006)0.04 (0.01)0.012 (0.009)+ 0.04 (0.005)+ 0.003 (0.005)↓0.026FamilyPorphyromonadaceaeFibrobacteraceaeStreptococcaceaeLachnospiraceae1.305 (0.176)0 (0)0.067 (0.043)32.303 (2.438)1.232 (0.175)0.009 (0.006)0.06 (0.004)32.55 (1.878)2.856 (0.703)0.04 (0.01)0.097 (0.056)16.718 (0.458)5.941 (0.546)0.012 (0.009)0.028 (0.016)26.182 (2.781)+ 1.551 (0.813)+ 0.04 (0.005)+ 0.03 (0.014)- 15.585 (1.992)+ 4.709 (0.713)+ 0.003 (0.005)- 0.033 (0.012)- 6.368 (1.03)↑↓↓↑0.0430.0260.0250.015GenusParabacteroidesFibrobacterStreptococcusRuminococcusDialisterγ B38UC0.488 (0.152)0 (0)0.06 (0.041)2.235 (0.983)0.589 (0.107)0.019 (0.009)0.511 (0.05)0.009 (0.006)0.06 (0.004)2.058 (0.524)0.504 (0.169)0.007 (0.007)1.293 (0.35)0.04 (0.01)0.097 (0.056)2.204 (1.291)0.132 (0.084)0.029 (0.01)5.085 (0.674)0.012 (0.009)0.028 (0.016)0.675 (0.377)0.463 (0.136)0.041 (0.003)+ 0.805 (0.255)+ 0.04 (0.005)+ 0.037 (0.015)- 0.032 (0.369)- 0.457 (0.037)+ 0.01 (0.008)+ 4.574 (0.633)+ 0.003 (0.005)- 0.033 (0.012)- 1.383 (0.148)- 0.042 (0.062)+ 0.034 (0.004)↑↓↓↓↑↑0.0050.0260.0220.0270.0050.045Table 1: An overview of the significant changes in the relative abundance of the Phyla, Family and Genus (as determined by 454 pyrosequencing of the 16S rDNA region) of the batch culture fermentate following a 24 hour incubation with 1% (w/v) CE or cellulose under anaerobic conditions at 37oC. Significant differences of Delta change values (Δ) (difference 0 and 24 hours) between CE and cellulose were determined using independent t tests (n=3). Data presented are mean (SEM).Table 2: Significant differences induced by depolymerized crude polysaccharide rich extract (DE) on bacterial Phyla, Families and Genera.0 hrs24 hrsΔEffectPCellulose (%)DE (%)Cellulose (%)DE (%)CelluloseDEPhylumActinobacteria1.499 (0.299)0.873 (0.218)1.955 (0.284)0.607 (0.13)+ 0.456 (0.068)- 0.266 (0.171)↓0.017FamilyLachnospiraceaeAlcaligenaceae32.303 (2.438)0.636 (0.088)30.968 (1.478)1.071 (0.142)16.718 (0.458)6.444 (0.569)25.724 (3.06)3.864 (0.54)- 15.585 (1.992)+ 5.807 (2.793)- 5.244 (2.791)+ 2.793 (0.682)↑↓0.0390.030GenusParabacteroides Lachnospiraceae uc.Peptostreptococcaceae ISDialister0.488 (0.15)0 (0)0.846 (0.048)0.589 (1.234)0.618 (0.206)0.007 (0.003)1.299 (0.074)0.418 (0.107)1.293 (0.35)0.003 (0.003)0.32 (0.085)0.132 (0.084)5.64 (1.234)0.046 (0.003)0.244 (0.074)0.277 (0.104)+ 0.805 (0.255)+ 0.003 (0.003)- 0.526 (0.051)- 0.47 (0.037)+ 5.022 (1.039)+ 0.039 (0.005)- 1.056 (0.147)- 0.141 (0.054)↑↑↓↑0.0170.0030.0270.008Table 2: An overview of the significant changes in the relative abundance of the Phyla, Family and Genus (as determined by 454 pyrosequencing of the 16S rDNA region) of the batch culture fermentate following a 24 hour incubation with 1% (w/v) DE or cellulose under anaerobic conditions at 37oC. Significant differences of Delta change values (Δ) (difference 0 and 24 hours) between DE and cellulose were determined using independent t tests (n=3). Data presented are mean (SEM).Table 3: Significant differences induced by FOS treatment on bacterial Phyla, Families and Genera.0 hrs24 hrsΔEffectPCellulose (%)FOS (%)Cellulose (%)FOS (%)CelluloseFOSPhylumProteobacteria3.11 (0.312)2.881 (0.279)11.082 (1.226)3.968 (1.628)+ 7.972 (1.368)+ 1.087 (1.904)↓0.043FamilyStreptococcaceaeClostridium XIII ISLachnospiraceaeAlcaligenaceae0.067 (0.043)0.032 (0.013)32.303 (2.438)0.636 (0.088)0.129 (0.045)0.011 (0.011)27.771 (0.886)0.988 (0.262)0.097 (0.056)0.069 (0.067)16.718 (0.485)6.444 (0.569)0.003 (0.003)0.227 (0.063)21.909 (1.271)1.959 (0.612) + 0.03 (0.014)+ 0.037 (0.016)- 15.585 (1.99)+ 5.807 (0.612)- 0.126 (0.043)+ 0.216 (0.053)- 5.862 (0.387)+ 0.971 (0.848)↓↑↑↓0.0250.0320.0090.010GenusButyricimonasParabacteroidesStreptococcusChristensenellaClostridium XIII IS UCFlavonifractorSutterellaCronobacter0.072 (0.029)0.488 (0.152)0.06 (0.041)0.058 (0.019)0.012 (0.012)0.085 (0.017)0.451 (0.046)0 (0)0.187 (0.046)0.735 (0.11)0.129 (0.045)0.041 (0.015)0.008 (0.008)0.079 (0.004)0.832 (0.302)0.003 (0.003)0.288 (0.081)1.293 (0.35)0.097 (0.056)0.094 (0.027)0.023 (0.006)0.282 (0.032)5.304 (1.0)0.116 (0.023)0.079 (0.023)0.579 (0.11)0.003 (0.003)0.033 (0.005)0.212 (0.052)0.082 (0.006)1.569 (0.471)0.02 (0.016)+ 0.217 (0.094)+ 0.805 (0.255)+ 0.037 (0.015)+ 0.037 (0.009)+ 0.013 (0.016)+ 0.197 (0.046)+ 4.85 (0.989)+ 0.116 (0.023)- 0.109 (0.032)- 0.155 (0.084)- 0.125 (0.043)- 0.007 (0.01)+ 0.204 (0.045)+ 0.003 (0.008)+ 0.737 (0.772)+ 0.017 (0.012)↓↓↓↓↑↓ ↓↓0.0300.0230.0230.0330.0160.0470.0300.019Table 3: An overview of the significant changes in the relative abundance of the Phyla, Family and Genus (as determined by 454 pyrosequencing of the 16S rDNA region) of the batch culture fermentate following a 24 hour incubation with 1% (w/v) FOS or cellulose under anaerobic conditions at 37oC. Significant differences of Delta change values (Δ) (difference 0 and 24 hours) between FOS and cellulose were determined using independent t tests (n=3). Data presented are mean (SEM).Table 4: Fatty acid concentrations produced during batch culture fermentations.Table 4: A table listing the concentrations of short chain fatty acids in the effluent of batch culture vessels after incubation with cellulose, FOS, CE and DE after 5, 10, 24. 36 and 48 hours. Samples were taken at the various time points, centrifuged, and the SCFA were quantified using a GC-FID. Significant differences in the individual SCFA, total SFCA and total BCFA between cellulose and each treatment (FOS, DE, CE) at each time point was determined using an independent t test. * = P < 0.05 (n=3). ................
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