Anatomy and Components of Immune System

1. Anatomy and Components of Immune System 2011

2. Components of Immune system

3. Immune System-Anatomy

4. The bone marrow hemopoietic stem cells are the ultimate origin of : • erythrocytes • all leucocytes including the lymphocytes. • Many lymphocytes pass through the thymus when they become processed by humoral microenvironment prior to release.

5. These lymphocytes are now called thymus-derived lymphocytes, T-lymphocytes or T-cells. • The majority of the bone marrow derived lymphocytes which do not enter or become processed by the thymus are called B-cells.

6. Formation of B-cells and T cells

7. Cells of the Immune system Many cells of the immune system derived from the bone marrow, Hematopoetic stem cell differentiation

8. Cells of the Immune system

9. Lymphocytes • Lymphocytes are mononuclear, non granular. • Found in blood, spleen, lymph node, tonsil. • They are spherical or ovoid in shape. • They arise from pluripotential haemopoietic stem cells. • They are important in both humoral and cell-mediated immunity • Types of lymphocytes: • B lymphocytes • T lymphocytes • Null cells

10. B lymphocytes /B cells • Mature in bone marrow • Are mononuclear and non granular • Have a large nucleus • Found in blood and lymph • Highly concentrated in lymph nodes and spleen. • Contain immunoglobulin on their surfaces. • Immature B cells changes to mature B cells which has IgD and IgM. • B-cells produce antibodies brings about humoral immunity

11. Protection by B cells • When bacteria, virus and toxins stimulate B cells, • B cells divide rapidly and forms two types of cells • Plasma cells- secrete antibodies in response to specific antigens- Primary response • B memory cells • move from blood to lymph • Survive for longer time • respond quickly and effectively during similar subsequent infection • Produce antibodies - secondary response

12. T Lymphocytes/ T- cells • Derived from haemopoietic stem cells of bone marrow • mononuclear, non-granular leucocytes that matures in thymus • They become functional on exposure to antigen • Brings about cell mediated immunity. • Types of T cells: • T helper cells ( TH cells) • T suppressor cells T ( TS cells) • T cytotoxic cells ( TC cells) • T delayed type hypersensitivity cells ( TD cells)

13. T helper cells ( TH cells) • Regulator cells • T helper cells get activated by very small quantities of antigens which cannot activate other cells. • Helper T cells: release interleukin-2 which in turn triggers the release of other cytokines. Cytokines: any soluble factor secreted that act as a signal to other lymphoid cells. There are two categories:- • Lymphokines: secreted by lymphocytes • Monokines: secreted by macrophages Certain cytokines like interferon and interleukins are secreted by both lymphocytes and macrophages

14. Lymphokinesincrease the response of B cells, T killer cells and T suppressor cells. • B cells are activated to produce antibodies. • Another type of Lymphokines secreted by helper cells called macrophage migration inhibition factors which cause the accumulation of macrophages around the antigen and activation of macrophages to perform phagocytosis.

15. T Suppressor Cells (TS cells) • Suppress the activity of B cells and other T cells. • Are the regulatory T cells. • They inhibit antibody production by B cells. • They suppress the function of the T killer and T helper cells. • Suppressor T cells are responsible for immune tolerance by limiting the ability of the immune system to attack a person’s own body tissues.

16. Cytotoxic T cells ( Tc) or T killer cells (Tk) • recognizes the foreign antigen on the surface of virus infected cells and destroy the cells releasing cytolytic protein. • Cytotoxic substances are probably lysosomal enzymes manufactured in the Tc cells. • Cytotoxic T cells (Tc) are lethal to tissue cells that have been invaded by viruses. • The virus particles entrapped in membranes of infected cells attract T cells because of viral antigenicity and Tc cells ultimately damage the virus infected tissue cells.

17. Also play important role in destroying cancer cells, heart transplant cells or other types of cells that are foreign to the persons own body.

18. T Delayed Type Hypersensitivity cells (TD) • Brings macrophages to areas where delayed hypersensitivity reaction occur. • TD similar to TH cells. • TD secrete primarily macrophage chemotoxin and macrophage migration inhibition factor. • By secreting these lymphokines the TD cells are directly involved in the delayed hypersensitivity reaction.

19. Plasma Cell • Fully differentiated B cells. • Do not divide and have a half life of about 2-4 days. • Found rarely in plasma of blood but are found in lymph nodes and spleen. • secretes Antibodies (immunoglobulins)

20. Null Cells • Are lymphocytes with cytotoxic properties. • Neither B cells nor T cells but intermediate. • Two kinds: • Natural Killer cells and • Killer cells

21. Natural Killer cells • Have 2 or 3 large granules in the cytoplasm • Have kidney shaped nucleus • Kills cells infected with certain viruses • Kill the target cells without the aid of antibody and complement - antibody independent. • Destroy the cancer cells and cells infected with herpes and mumps virus. • Don’t need antibody • Activated by interferon and interleukin • Both innate and adaptive

22. Killer cells ( K cells) • Are antibody dependent. • Depends on the presence of bound antibody, • thus reaction is termed- antibody-dependent cell- mediated cytotoxic reaction. • K cells can kill a variety of cells such as tumor cells, bacteria, viruses, fungi and parasites.

23. Monocytes/Macrophage • Are large, mononuclear phagocytic cells derived from monocyte. • Have large nucleus and contain a large number of lysosomes • Strongly phagocytic to a wide variety of particulate materials such as microorganisms, dead cells, effete cells, debris, immune complex. • Phagocytosis and killing of microorganisms

24. Activation of T cells and initiation of immune response. • Involved in the processing of antigen before they are presented to the T and B cells. Macrophages are important secretary cells- secrete substances such as components of complement system, hydrolytic enzymes, toxic forms of oxygen and monokines. • Monocyte is a young macrophage in blood

25. Dendritic Cells • Activation of T cells and initiate adaptive immunity • Found mainly in lymphoid tissue • Function as antigen presenting cells (APC) • Most potent stimulator of T-cell response

26. Mast Cells • Large cells with basophilic granules in the cytoplasm. • Mast cells are similar to basophils of the blood, in appearance and functions. • Expulsion of parasites through release of granules. • Release substances like serotonin, histamine, heparin, platelet activating factors, leukotrines and prostaglandins which brings about inflammatory and allergic reactions.

27. Neutrophil • Granulocyte • Cytoplasmic granules • Polymorphonuclear • Short life span (hours) • Phagocytosis • Very important at “clearing” bacterial infections • Innate Immunity

28. Eosinophils • Double Lobed nucleus • Granules are rich in hydrolytic enzymes. • Kills Ab-coated parasites through degranulation. Involved in allergic inflammation • Orange granules contain toxic compounds

29. Basophils • Might be “blood Mast cells’ • A cell-killing cells • Blue granules contain toxic and inflammatory compounds. • Important in allergic reactions. • The basophilic granules are believed to contain heparin, histamine, serotonin, platelet activating factor and other vasoactive amines that may be released at the sire of inflammation or region of immediate hypersensitivity reaction.

30. Other Blood Cells • Megakaryocyte • Platelet formation • Wound repair • Involved in immune response, especially in inflammation. • Involved in hypersensitivity reaction. • Erythrocyte • Oxygen transport

31. Task • Differentiate between B cell and T cell

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