The Immune System. Specific Immunity
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1 The Immune System Specific Immunity
2 What You Should Know Immune surveillance A range of white blood cells constantly circulate monitoring the tissues. If tissues become damaged or invaded, cells release cytokines which increase blood flow resulting in specific white blood cells accumulating at the site of infection or tissue damage. Clonal selection theory. Lymphocytes have a single type of membrane receptor specific for one antigen. Antigen binding leads to repeated lymphocyte division resulting in a clonal population of lymphocytes.
3 Immune Surveillance A range of different types of white blood cells continuously circulate in the blood monitoring the state of the tissues If damage is detected some of these white blood cells release cytokines into the blood This attracts large numbers of phagocytes and T cells to the damaged or infected area Often white blood cells squeeze through the pores in the capillaries to gain access to the tissue Lymphocytes on patrol White blood cells, called lymphocytes, move through the bloodstream alongside red blood cells.
4 Clonal Selection Theory Any foreign molecule that is able to elicit a specific response from the immune system is referred to as an antigen
5 Antigenic Receptors The body has an enormous number of different lymphocytes Each lymphocyte has a single type of antigen receptor on the surface of its membrane The antigen receptor is specific for one antigen Each lymphocyte is able to attach to and be activated by one type of antigen
6 Clonal Population The lymphocyte then divides repeatedly to form a clonal population of identical lymphocytes This is called clonal selection
7 T & B Lymphocytes
8 What You Should Know Lymphocytes respond specifically to antigens on foreign cells, cells infected by pathogens and toxins released by pathogens. T-lymphocytes have specific surface proteins that allow them to distinguish between the surface molecules of the body s own cells and cells with foreign molecules on their surface. Immune system regulation failure leads to T-lymphocyte immune response to self antigens (auto immune disease). Allergy is a hypersensitive B- lymphocyte response to an antigen that is normally harmless T-lymphocytes One group of T-lymphocytes destroy infected cells by inducing apoptosis. Another group of T-lymphocytes secrete cytokines that activate B lymphocytes and phagocytes. When pathogens infect tissue, some phagocytes capture the pathogen and display fragments of its antigens on their surface. These antigen presenting cells activate the production of a clone of T-lymphocytes that move to the site of infection under the direction of cytokines. B-lymphocytes Each B-lymphocyte clone produces a specific antibody molecule that will recognise a specific antigen surface molecule on a pathogen or a toxin. Antigen-antibody complexes may inactivate a pathogen or toxin or render it more susceptible to phagocytosis. In other cases the antigen-antibody complex stimulates a response which results in cell lysis. B-lymphocytes activated by antigen presenting cells and T-lymphocytes produce a clone of B- lymphocytes that secrete antibodies into the lymph and blood where they make their way to the infected area.
9 Lymphocytes respond specifically to antigens on foreign cells, cells infected by pathogens toxins released by pathogens Lymphocytes
10 T Lymphocytes T-lymphocytes have specific surface proteins that allow them to distinguish between the surface molecules of the body s own cells and cells with foreign molecules on their surface. self molecules on the surface- no action non-self moleculesimmune response initiated Those lymphocytes that bind to antigens from the body's own tissues are destroyed
11 Auto Immune Disease The failure to recognize self-antigens can result in autoimmune disease The T lymphocytes attack the body s own cells Examples include Type 1 diabetes Rheumatoid arthritis Multiple sclerosis Celiac disease
12 Allergy An allergy is a hypersensitivity disorder of the immune system Sometimes the immune system over reacts to harmless substances e.g. pollen, dust. When the immune system over reacts B lymphocytes are activated producing antibodies which attach to the mast cells in the connective tissue causing the release of histamine
13 T Lymphocytes (2 types) 1.Cytotoxic T cells destroy infected cells by inducing apoptosis
14 2. Helper T cells secrete cytokines that activate phagocytes, cytotoxic T cells and B lymphocytes T Lymphocytes
15 Antigen Presenting Cell After a phagocyte destroys an invading pathogen it presents fragments of its antigens on its cell surface The phagocyte is now referred to as an antigen presenting cell A specific helper T cell then binds to the antigen on the antigen presenting cell The helper T cell becomes activated and produces a clone of activated helper cells The helper T cells secrete cytokines which activate B cells to secrete antibodies and macrophages to destroy ingested microbes. They also activate cytotoxic T cells to kill infected target cells.
16 B Lymphocytes B-lymphocytes activated by antigen presenting cells and T-lymphocytes produce a clone of B- lymphocytes that secrete antibodies into the lymph and blood where they make their way to the infected area Each B-lymphocyte clone produces a specific antibody molecule that will recognise a specific antigen surface molecule on a pathogen or a toxin.
17 The Action of B Lymphocyte Antigen-antibody complexes may inactivate a pathogen or toxin or render it more susceptible to phagocytosis
18 The Action of B Lymphocyte In other cases the antigen-antibody complex stimulates the activation of proteins which result in cell lysis
19 Immunological Memory
20 What You Should Know Immunological memory. Some T- and B-lymphocytes produced in response to antigens by clonal selection survive long-term as memory cells. A secondary exposure to the same antigen rapidly gives rise to a new clone of lymphocytes producing a rapid and greater immunological response.
21 Immunological Memory Towards the end of each battle to stop an infection, some T-cells and B-cells turn into Memory T- cells and Memory B-cells. These cells remember the virus or bacteria they just fought. These cells live in the body for a long time, even after all the viruses from the first infection have been destroyed. They stay in the ready-mode to quickly recognize and attack any returning virus or bacteria.
22 Secondary Response The first time your body fights a virus, it can take up to 15 days to make enough antibodies to get rid of it. With the help of Memory B- cells, the second time your body sees that virus, it can do the same in thing 5 days. It also makes 100 times more antibodies than it did the first time. The faster your body makes antibodies, the quicker the virus can be destroyed. With the help of Memory B- cells, you might get rid of it before you even feel sick. This is called gaining immunity.
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