Immune System Handout.docx



Defense Against Disease Handout: Topics 6.3 and 11.1Introductory Vocabulary Pathogen-An organism or virus that causes a diseaseAntigen-Any foreign macromolecule (either proteins, polysaccharides or structures on the surface of bacteria) that triggers an immune responseAntibody-Antibodies are proteins that bind to particular antigens and mark them for elimination from the bodyAntibiotics-Any substance that is able to kill or inhibit a microorganism such as bacteriaVirus--An infective agent consisting of a protein coat surrounding an RNA or DNA core-Are not cells and do not possess membranes or organelles.-They cannot manufacture their own proteins and must invade living cells to take over their protein production “machinery”Leucocytes-White blood cells (these can include macrophages, neutrophils, and lymphocytes) Phagocytic leucocytesSpecialized white blood cells that engulf foreign/invading pathogens and destroy them6.3.1 Define pathogen.Pathogen- An organism or virus that causes a diseaseThis includes bacteria, viruses, and other microorganisms that can cause disease.Synonym: germ6.3.2: Explain why antibiotics are effective against bacteria but not against viruses.Antibiotics are chemicals that take advantage of the differences between prokaryotic and eukaryotic cells.One type of antibiotic can selectively block protein synthesis in bacteria.Another may inhibit the production of a new cell wall by bacteria, thus blocking their ability to grow and divide.In both cases, our body cells will remain unaffected by the medicine.Viruses are not affected because they use our own body cells' metabolism to replicate.Therefore, any chemical that would inhibit this would also be damaging our own cells.6.3.3 Outline the role of skin and mucous membranes in defense against pathogens.Skin and mucous membranes serve as external forms of defense against pathogensSkin is the physical barrierMucous membranes: mucous is lined in certain areas of the body. -Trachea -Urethra -Nasal passages -VaginaWhen a pathogen enters the body, mucous surrounds the pathogen, the body senses the excess mucous, so coughing is induced to expel the pathogen.6.3.4 Outline how phagocytic leucocytes ingest pathogens in the blood and in body tissues.Phagocytic leucocyte- A type of white blood cellFloat around the body in bloodPhagocyte surrounds the pathogen by endocytosisA vacuole containing the pathogen travels to a lysosomeThe membranes of the vacuole and lysosome fuseDigestive enzymes in the lysosome destroy the pathogenThe pathogen “debris” is released by exocytosis 6.3.5: Distinguish between antigens and antibodies.AntibodiesProtein molecules produced in response to a specific pathogenTherefore, each antibody is different....But all have are a "Y" shaped proteinAntigensForeign proteins embedded in the outer surface of the pathogen (i.e. the capsid of a virus)These trigger an immune responseMost pathogens have several different types of antigen and so may trigger the production of several different types of antibody 6.3.6/11.1.4 Define Antibody ProductionBeta Cells produce antibodies in small amounts (in comparison to the infection).Antibodies are produced in response to a specific type of pathogen.Each antibody is y-shaped. At the end of each fork, there is a binding site, which is where the antibody attaches to the antigen.1. Before antibody production, a neutrophil releases chemicals to kill the pathogen. If this isn’t successful, macrophages arrive.2. The macrophage attempts to ingest the pathogen.3. A protein floating in the blood (C3B) senses the pathogen and attaches to the surface of the pathogen.4. If these methods don’t work and the pathogen invades a cell, the cell sends out a stress signal.5. This signal brings a natural killer (NK) cell to kill the entire cell, in hopes of stopping the pathogen.6. The other method is to prevent the pathogen from entering the cell in the beginning, which is when antibodies are used.7. A specific B-lymphocyte is identified that can produce an antibody to bind to the antigen.8. The B-lymphocytes are cloned (divide repeatedly through mitosis) to rapidly increase the number of antibodies being produced.9. Antibody production begins.10. The antibodies are released in the bloodstream, searching for the correct antigen to bind to.11. This binding leads to the presence of T-helper cells to produce chemicals to kill the pathogen.12. T-helper cells (another type of leucocyte that is specific to that antigen) bind to the antigen presented by the macrophages and are activated/stimulated.6.3.7 Outline the effects of HIV on the immune system.HIV virus kills Helper T-cellsHelper T-Cells tell B-cells there is a pathogenno T cells, no recognition of other pathogensImmune system cannot mount an effective defense against invading pathogensPatients then succumb to secondary infections6.3.8: Discuss the cause, transmission, and social implications of AIDS.Cause- HIV infects helper-T cells, but can lie dormant in the host cell for many years until a chemical signal activates it- Helper-T cells communicate which cells need to replicate and produce antibodies- When Helper-T cells die, communication is lost and antibodies are not produced- Therefore, the individual cannot fight off pathogens and develops AIDS- Since HIV mutates quickly it is hard to develop medicationTransmission- HIV transmitted through bodily fluids (i.e. during sex, by reusing unsterile needles, or breastmilk)- In the past blood for transfusions was not tested for HIV and other blood-borne illnessesSocial Implications- AIDS used to be associated with homosexuals and drug abusers- Was called GRID (Gay-related immune deficiency)- Individuals with HIV are often discriminated against for things like employment, access to insurance and education, etc.- Not all countries/areas have the education and medical technology to treat prevent/treat HIV/AIDS- Infection rates can be increased if patients are grouped together in large wards11.1.1 Describe the process of blood clotting - Plasma Proteins and platelets circulate in blood plasma.- Two Clotting Proteins: Remain inactive until receive a signal. -prothrombin -fibrinogen1. Damaged cells release chemicals which stimulate platelets to adhere to the area.2. Other platelets begin adhering, eventually forming a barrier or plug.3. A signal is sent to bring prothrombin to the area.3. The damaging tissue and platelets also release clotting factors which convert prothrombin into thrombin. -Thrombin is produced to lead to the production of fibrinogen and eventually fibrin which makes up the clot.11.1.2 Outline the principle of challenge and response, clonal selection and memory cells as the basis of immunity.Challenge and ResponseWhen the body is challenged by a foreign pathogen it will respond with both a non-specific and specific immune reactionThe body is capable of recognising invaders as they do not possess the molecular markers that designated all body cells as 'self' (MHC class I)Non-specific immune cells (macrophages) present the foreign antigens to lymphocytes as examples of 'non-self' (on MHC class II)These lymphocytes can then respond with the production of antibodies to destroy the foreign invadersClonal SelectionEach B lymphocyte has a specific antibody on its surface that is capable of recognising a specific antigenWhen antigens are presented to B cells (and TH cells) by macrophages, only the B cell with the appropriate antibody will become activated and cloneThe majority of B cell clones will differentiate into antibody-producing plasma cells, a minority will become memory B cells (BM cells)Because pathogens may contain several antigenic determinants, several B cell clones may become activated (polyclonal activation)Memory Cellsa specific cell that is part of the immune system- obviouslystarts in the bone marrow where lymphocytes are madecan be either a T cell or a B cellfunction of these cells is characterized by the memory present in acquired immunityonce a memory cell has been exposed to a pathogen, it will recognize it much quicker in the event that it encounters the same pathogen againThere is a delay between initial exposure and the production of antibodiesWhen a B cell does divide and differentiate, a small proportion of clones will differentiate into memory cellsMemory cells remain in the body for years (or even a lifetime)Because the individual no longer presents with the symptoms of infection upon exposure, the individual is therefore immune11.1.3: Define active and passive immunity.Active immunity:Always leads to the production of memory cells and thus provides for long-term immunity to a pathogen.Memory cells are produced whenever the immune system is presented with an antigen and there is a full immune response.Passive immunity:When an organism acquires antibodies from anotherOnly a short-term benefit to the receiver of antibodies because memory cells are not transmittedExamples- transfer of antibodies from mother to placenta, acquisition of antibodies from mother's colostrum, and injection of antibodies in antisera (i.e. antivenoms for treatment of poisonous snake or spider bites)11.1.5 Describe the production of monoclonal antibodies and their use in diagnosis and treatment.Definition- Monoclonal antibodies are monospecific antibodies that are the same because they are made by identical immune cells that are all clones of a unique parent cell, in contrast to polyclonal antibodies which are made from several different immune cells.Production-1. Antigens that correspond to a desired antibody are injected into an animal2. B-cells producing the desired antibody are harvested3. Tumor cells are obtained from another source (tumor cells grow and divide endlessly)4. B-cells are fused with tumor cells, producing hybridoma cells that divide endlessly, providing the desired antibodies5. The hybridoma cells are cultured and the antibodies they produce are extracted and purifiedUse in Diagnosis- Malaria1. Monoclonal antibodies are made to bind to antigens in malarial parasites2. A test plate is covered with antibodies3. The sample is left on the plate long enough for malaria antigens (if present) to bind to antibodies4. The sample is rinsed off-Any bound antigens are detected using more monoclonal antibodies with attached color-changing enzymeUse in Treatment- RabiesRabies usually causes death in humans before the immune system can control it.Injecting monoclonal antibodies when a person gets infected will control the virusAt the same time, the person's body begins making its own antibodiesTriggers two-fold immune responsePassive through injectionActive through body’s production11.1.6: Explain the principle of vaccination.You cannot be immune to a pathogen unless you're exposed to it at least once.Vaccines act as the first exposure to a pathogen.A vaccine is developed by weakening a pathogen an injecting it into the body.A "weak" strain can be selected, or the pathogen can be heated or treated chemically.Pathogen would still be recognized as foreign so a primary immune response would take place.Memory cells would produce antibodies quickly if ever infected with strong pathogen.Therefore, a vaccination doesn't prevent infection but the secondary immune response is quicker and more intense than the primary one.Very mild or no obvious symptoms as a result11.1.7 Discuss the benefits and dangers of vaccination.Benefits:-Possible total elimination of a disease. Ex. Smallpox, hoping for polio and measles-Decrease in the spread of epidemics-Costs are minimal in comparison to treatment- preventative medicine is typically the most cost-effective approach-Each vaccinated person doesn’t have to experience the symptoms at allDangers:-Before 1999, many vaccines contained thimerosal, containing mercury which poisoned infants, so there’s a possibility of other chemicals having similar negative effects without us being aware of those effects. -The perception exists that multiple vaccines given to children in a short period of time may overload their systems-Anecdotal evidence suggests that MMR vaccine may link to autism-Development of allergies ................
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