Each response is directed towards a specific micro-organism

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Presentation transcript:

Each response is directed towards a specific micro-organism Immune Response (Specific) Each response is directed towards a specific micro-organism Humoral Cell Mediated (antibody mediated) (lymphoctyes) B Cells In Lymphoid T Cells Tissue Mature in Bone marrow Mature in Thymus Both are Produced in Bone Marrow

“Any substance capable of causing a specific immune response” Antigens “Any substance capable of causing a specific immune response” Can be protein, carbohydrate, lipid or nucleic acid Can be whole micro-organism, or part of bacterium (eg Flagella), or toxins produced by bacterium. Self-Antigens “Large molecules produced in person’s own body & don’t cause immune response” Non-Self Antigen “Foreign compounds that DO trigger an immune response”

Antibodies “ A specialised protein that is produced in response to a NON-SELF antigen Antigen molecules have specific active sites & it is here that antibody can combine with the antigen = Antigen-antibody complex Lock & Key Model

T Lymphocytes (T cells) “Educated” in the thymus Migrate into the bloodstream, lymph nodes & lymphoid tissue Highly mobile and continually circulate throughout the body Involved in cell-mediated immunity Provides resistance once foreign micro-organism enters cell

B Lymphocytes (B cells) “Educated” in red bone marrow Released into bloodstream, migrate to lymph nodes & lymphoid tissue Less mobile than T cells Shorter life span Replaced continuously Involved in antibody-mediated immunity (Humoral) Provides resistance BEFORE micro-organism enters cell.

Similarities of B & T Cells Both are antigen specific Will only react to those antigens they have been trained to recognise Both develop a memory Once they have been exposed to the specific antigen they are able to respond more quickly on subsequent exposures

Antibody-Mediated Immunity (Humoral) B cells involved B cells can become activated in two ways: Macrophages can ingest the pathogen and then present the antigen to a B cell Antigen makes direct contact with a B cell

Activation of B cell occurs if the antigen matches the receptor located on the B cell Once activated: B cell enlarges Undergoes repeated mitotic division Most of the millions of resulting daughter cells become plasma cells Plasma cells secrete antibody into the lymph Some B daughter cells – memory cells (allow response to occur quicker on subsequent exposure)

All antibodies combine with the antigen for which they are specific. Secreted antibody circulates throughout body until it comes into contact with matching antigen Antibody reacts with antigen to form antigen-antibody complex All antibodies combine with the antigen for which they are specific.

Responses Combine with foreign enzymes/toxins to inactivate them & inhibit reactions Bind to viruses surface to prevent virus entering cells Coat bacteria therefore bacteria easier to consume by phagocytes Cause bacteria, viruses or foreign blood cells to clump together – agglutination Dissolve organisms React with soluble substances to make them insoluble therefore easily consumed

Summary of B Cells… B cells One type of B cell is activated Clones are produced Plasma Cells secrete antibodies Circulate until find antigen Memory cells Spread to all tissues

Cell-Mediated Immunity T cells can only react to an antigen if the antigen has entered a cell Very good at counteracting viral diseases Cell is able to alert the immune system by displaying non-self protein fragments on outer surface

Thousands of different T cells made to interact with specific antigen Once activated: T cell divides rapidly forming clone cells T killer cells (cytotoxic T cells) leave lymph nodes and migrate to infection site Attack infected cells directly by lysing (breakdown of cell wall) them Attract macrophages to engulf cells Releasing a substance that speeds up macrophage activity Activate other lymphocytes

T helper cells secrete substances that amplify and control immune system E.g. responsible for activating B & T cells T memory cells which enhance the secondary response to any subsequent infection

Summary of T cells… T cells in lymphoid tissue 1 type of T cell sensitised Clones produced Killer T cells go to site of infection Memory Cells Attach to antigen, enhance & increase macrophages

Exposure to antigens Antigens 2nd Exposure More rapid due to memory cells Initial Exposure

Lymphokines Soluble substances released by sensitised lymphocytes when the come into contact with antigen Inhibit multiplication of pathogens Attract phagocytes Secrete interferon (blocks viral infection) Activate macrophages

Interleukins Interleukin-1 Interleukin-2 Released by macrophages Activates helper T cells Helper T cells secrete Interleukin-2 Interleukin-2 Stimulates killer T cells to divide rapidly