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Cells of inflammation and Immunity G. Wharfe 2005.

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Presentation on theme: "Cells of inflammation and Immunity G. Wharfe 2005."— Presentation transcript:

1 Cells of inflammation and Immunity G. Wharfe 2005

2 Immune system  Detect and respond to antigens  Protects against pathogenic microorganisms  Also elicits response against noninfectious foreign organisms  Used in inflammatory response and tissue repair

3 Immune response  Response needs to be quick and efficient  Two systems –Innate –Adaptive

4 Cells of IR  All derived from BM stem cells  Influenced by growth factors  Begin as multipotent stem cell  Develop into committed stem cells

5 Innate immune system  First to respond  Limits infection before adaptive response  Usually involve nonlymphoid cells  Cells are macrophages and polymorphonuclear neutrophils(PMN)  Also involves complement and acute phase proteins  If innate immunity cures infection-no adaptive immunity develops

6 Normal haematopoiesis

7 Adaptive immunity  Inducible antigen specific response  Primary lymphoid organs produce lymphocytes capable of responding to various antigens  Lymphocytes form naïve pool in blood  Lymphocytes circulate in peripheral lymphoid organs  Location for Ag-dependent IR

8 Immunoglobulin

9 Cells of innate immune system  All are bone marrow derived  Lineage commitment depends on stromal contact and cytokines  Dendritic cells-Antigen presenting cells  Develop from peripheral blood monocyte precursors  Found in the interstitium and T cell areas  Stimulate Ag specific T cells

10 Phagocytic cells  PMN’s  Macrophages

11 Granulocytes  Inflammatory cells  Contain cytoplasmic granules  Neutrophils  Eosinophils  Basophils

12 Neutrophil

13 Stages of granulocyte maturation

14 Neutrophils  Major phagocytic granulocyte  Contain multilobed nucleus  Neutrophilic granules  Respond to chemotactic stimuli  Activated by macrophage and endothelial derived cytokines  Major cell of acute inflammation  Primary effector cells in IR to pyogens

15 Neutrophils  Have Fc receptors for IgG and c’  Bind and phagocytose opsonised antigens  Link between 2 arms of immune system  Regulates activation and recruitment of macrophages by cytokines

16 Phagocytosis  Principal mechanism of pathogens  Enter site of infection  Opsonins produced to allow phagocytosis  Taken into vacuole  Killing by aerobic or anaerobic mechanisms  Cytokine induction

17 Phagocytosis

18 Eosinophil

19 Eosinophils  Contain eosinophilic granules  Express Fc receptors for IgE  IgE prevalent in parasitic infections  IgE mediates activation of eosinophil killing mechanisms  Role in immediate hypersensitivity to allergens  Cause tissue injury and inflammation

20 Basophil

21 Basophils  In circulation –basophils  In tissue- Mast cells  Express Fc receptors for IgE  Release chemical mediators of immediate hypersensitivity

22 Monocyte

23 Macrophages  Main cells of chronic IR  Regulators of specific acquired response  Fewer numbers than neutrophils  Peaks in hours to days  Participate in both acute and chronic inflammation  Phagocytose apoptotic PMN’s

24 Tissue macrophages  Second major class of phagocytic cells  Provide innate immunity and initiate host defenses  Release inflammatory cytokines  Act as APC  Link between innate immunity and acquired humoral and cellular immunity

25 Cells of monocyte macrophage system

26 Lymphocytes  B lymphocyte  T lymphocyte  NK lymphocyte

27 Lymphocyte

28 Lymphocytes  Mediate adaptive immune response  Recognize antigen specifically  Each clone has antigen specificity  Arrange V, J and D elements if Ig and T cell receptor genes to form different clones  B lymphocytes recognize native Ag  T lymphocytes recognize processed Ag

29 Lymphocytes  Ag binds to receptor  Lymphoid activation and Clonal expansion  Effector cells or products all have same  specificity as parent cell  Inactivation of self reactive clones

30 Lymphocytes  Ag independent maturation occurs in primary lymphoid organs  Ag dependent occurs in secondary lymphoid organs  Cells are indistinguishable morphologically  Phenotypically and functionally different

31 B lymphocyte development

32 B lymphocytes  Generate Ab response  Formed with other white cells in BM  Ab neutralize pathogens, opsonize pathogens, activate complement  Act as APC for T cells  Generate memory B cells

33 Plasma cell

34 Plasma cells  Not usually found in PB  Responsible for Ig production

35 T lymphocyte development

36 T cells  Generate CMI  Directly by differentiating into cytotoxic T cells  Indirectly by activating macrophages  Help B lymphocytes  Develop from BM progenitors which migrate to thymus  CD4 and CD8

37 T cell functions  Delayed hypersensitivity  Cell mediated immunity  Graft rejection  Contact allergic reactions  Cytotoxic responses to other cells  Facilitate Ab production by B cells  Memory T cells

38 Lymphoid organs

39 Interaction of lymphocyte with virus

40 NK cells  Also known as LGL  Target virus infected cells  Target tumor cells  Have receptors for IgG  Mediate ADCC

41 Immune response

42 Differences between cells of innate immunity and lymphocytes  Different ways of recognizing microorganisms  Direct  Indirect  Specific Ag recognition

43 Cytokines  Molecules secreted by cells(lymphocytes) and which affect the function of other cells  Secreted in response to specific stimulus  Interleukin is a type of cytokine

44 Role of interleukins


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