Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download presentation
Document related concepts
Lymphopoiesis wikipedia , lookup
Gluten immunochemistry wikipedia , lookup
Duffy antigen system wikipedia , lookup
Social immunity wikipedia , lookup
Anti-nuclear antibody wikipedia , lookup
Autoimmunity wikipedia , lookup
Immunocontraception wikipedia , lookup
Complement system wikipedia , lookup
Sjögren syndrome wikipedia , lookup
Adoptive cell transfer wikipedia , lookup
Hygiene hypothesis wikipedia , lookup
DNA vaccination wikipedia , lookup
Immune system wikipedia , lookup
X-linked severe combined immunodeficiency wikipedia , lookup
Adaptive immune system wikipedia , lookup
Molecular mimicry wikipedia , lookup
Monoclonal antibody wikipedia , lookup
Innate immune system wikipedia , lookup
Cancer immunotherapy wikipedia , lookup
Psychoneuroimmunology wikipedia , lookup
Transcript
The Immune system Biology II: Form and Function The Immune System • Nonspecific defense mechanisms – Physical barriers (skin, mucous membranes – Internal defense 1 • • • • Phagocytic neutrophils Macrophage monocytes Natural killer cells The antimicrobial protein complement • Specific defense mechanisms (the Immune system) – T- and B-Lymphocytes, antibodies Physical barriers • Integument – is acidic (pH 3-5) – Flakes away, taking away particles – Subcutaneous adipose tissue helps cushion physical contact – Sweat contain lysozyme • Mucous – prevents microbes from reaching sensitive epithelial tissue – Washes surface of dust – Viscous natures traps particles (cilia) Nonspecific defenses: the front line – Monocytes are transformed into macrophages that ingest microbes and fuse them with lysosomes (highly oxidative) – Neutrophils can also act as macrophages, but more commonly release poisons that work on a large scale – Natural killer cells destroy already infected cells by releasing molecules of perforin that breach the target cell. Sudden influx of water lyses foreign cell – The protein complement system aggregates to form membrane attack complexes also to breach target cells, as well as releasing proteins that inhibit virus transcription (also a, b, g interferons) The inflammatory/temperature response – Invasion of foreign material causes injured cells to release chemical alarm signals (e.g. histamine) – Chemical alarm signals promote vasodilation – Vasodilation and increased permeability of capillaries causes edema (tissue swelling) – Increased permeability allows macrophages to cross over into infected site – Macrophages release interleukin-1, causing body to raise temperature (fever), which causes mild anemia – Localized infections can be serious enough to cause systemic response The Immune System – The immune system responds to the presence of antigens, specific complex protein molecules associated with bacteria, viruses and other foreign bodies – Humoral immune response produces antibodies (Blymphocytes) – Cell-mediated immunity (T-lymphocytes) – Specific defense against microbial invasion: response elicited by antigens • • • • Specificity: Specialized lymphocytes produce antibodies Diversity (over 109 different types of antibody) Memory (acquired/passive immunity) Self/nonself recognition (defense is specific against antigen. Failure to recognize healthy, non-antigen tissue causes auto immune diseases (e.g. lupus)) Humoral Response/Antibodies – Produced by B-Lymphocytes (from bone marrow) – Antibodies belong to a group of proteins called Immunoglobulins (Ig) – General structure is “Y” shaped, made of two light and two heavy polypeptide chains – Heavy chains specify type of antibody (IgM, IgG, IgA, etc.) – Light chains responsible for antigen specificity • Initial encounter between B-lymphocyte with specific antibody and antigen causes clonal selection: division of Bcells to – Memory cells – Plasma cells that produce more antibodies that flag antigen for destruction by • aggregation of protein complement system • Macrophage activity Cell-mediated Response • T-cells have similar receptor sites to B-cells • Response to binding between recognition site and antigen is production of: – Cytotoxic T-cells (Tc) attack cells labeled for destruction by helper T-cells – Helper T-cells (Th), produce cytokines (interleukin) to regulate immune response When things go wrong (1) – Acquired Immuno-Deficiency Syndrome (AIDS) is represented by a breakdown of the immune response system, caused by the virus HIV (Human-Immunodeficiency Virus) • HIV infects T-cells until entire population of certain types are destroyed • Infected T-cells secrete chemical that block defense by other T-cells • HIV blocks recognition sites so that infected cells cannot be destroyed by immune system When things go wrong (2) – Antigen shifting causes acquired immunity to fails by changing the ‘face’ of the antigen • Seen in Malaria, Bilharzia – Autoimmune diseases caused by failure of immune system to recognize self (causes inflammation and organ damage) – Allergies caused by abnormal response of • B-cells to allergen (immediate hypersensitivity), producing a histamine reaction • T-cells (delayed hypersensitivity)
