Immunology

1. Chapter 2 Cells and Organs of the Immune System Dr. Capers Immunology

2. Hematopoiesis • All blood cells arise from Hematopoietic Stem Cells (HSC) • Study of these cells is difficult • Scarce • Difficult to grow in vitro • Can isolate using monoclonal antibodies and flow cytometry

3. Hematopoiesis • Early in hematopoiesis, stem cell differentiates to either • Lymphoid progenitor cell • Myeloid progenitor cell • Progenitor cells have lost ability for self renewal and are committed to particular cell lineage

5. Hematopoiesis • Regulated at gene level • Transcription factors play important roles in hematopoiesis • Studies using “knockout” mice • Gene inactivated, if RBC or a particular WBC fails to develop, it is concluded that protein was involved in development of that cell • Ikaros – transcription factor needed for lymphoid development • Notch – transcription factor needed for choice between B and T cell development

6. Hematopoietic Homeostasis • Erythrocyte • Average life span: 120 days • Phagocytosed by macrophages in spleen • WBC - LEUKOCYTES • Life spans from 1 day to 20-30 years • Apoptosis – programmed cell death

8. Normal WBC WBC going through apoptosis

9. Cells of the Immune System • Lymphocytes • 20-40% of WBC • 3 populations • B cells • T cells • Natural Killer Cells

11. Lymphocytes • B cells and T cells • Adaptive immunity • Small lymphocytes • Those that have not interacted with antigen are called naïve • Interaction with antigen – proliferation into effector cells (i.e. plasma cells) and memory cells

12. Lymphocytes • B and T cells

13. Lymphocytes • B Lymphocytes (B cells) • Site of maturation • Bursa of fabriscus in birds • Bone marrow in mammals • Display membrane-bound immunoglobulin (antibody) • Once antigen is encountered: • Differentiation • Plasma cells – antibody can be secreted, die within 1-2 weeks • Memory B cells – same membrane-bound antibody as parent B cell, longer life span

14. Lymphocytes • T Lymphocytes (T cells) • Site of maturation • Thymus • T cell receptor • Only recognize antigen that is bound to cell membrane proteins called major histocompatibility complex (MHC) • Once antigen in encountered with MHC: • Differentiation • Effector T cells • Memory T cells • 2 subpopulations • T helper (TH) • T cytotoxic (TC) • And now T regulatory (Treg)

15. Lymphocytes • T helper cells • CD4 glycoprotein • Recognizes antigen presented in MHC Class II • “help” activation of B cells, TC cells, macrophages in immune response

16. Lymphocytes • T cytotoxic cells • CD8 glycoprotein • Recognizes antigen presented in MHC Class I • Eliminates infected cells or cancerous cells

17. Lymphocytes • T regulatory cells • CD4 and CD25 glycoproteins • Help suppress the immune system after it’s been upregulated, after the infection is cleared

18. Lymphocytes • Natural Killer Cells • Innate immune response • Large, granular • Recognize tumor or virus-infected cells • CD16 – which can recognize a region of antibody that has attached to cell infected by virus

19. Other Leukocytes • Mononuclear phagocytes • Monocytes circulate in blood and then migrate into tissue and differentiate into specific macrophage • Macrophages • Intestinal macrophages in gut • Alveolar macrophages in lung • Histiocytes in connective tissue • Kupffer cells in the liver • Mesangial cells in the kidney • Microglial cells in the brain • Osteoclasts in bone • Activated macrophages are more effective than resting ones

22. Macrophage and bacteria

24. Other Leukocytes • Granulocytes • Neutrophils • Eosinophils • Basophils

25. Other Leukocytes • Granulocytes – Neutrophils • Multi-lobed nucleus, light granules • 1st to arrive at site of inflammation • High #’s is 1st indication of infection • Phagocytize • Generate antimicrobial agents • Neutrophils are very short lived when compared to macrophages • Come out of blood vessels ready to kill, would cause too much damage to tissues if long lived

27. Other Leukocytes • Granulocytes – Eosinophils • Phagocytize • Play a role in parasitic organisms

29. Other Leukocytes • Granulocytes – Basophils • Nonphagocytic • Play a role in allergic reactions

31. Other Leukocytes • Mast cells • Play important role in development of allergies

32. Other Leukocytes • Dendritic cells • Long membranous extensions, look like dendrites on nerve cells • Antigen presentation • Take a “snapshot” of what is happening in the tissues and carry this image to the lymph node • Dendritic cells imprint regional identity • 4 major groups: • Langerhans DC • Interstitial DC • Monocyte-derived DC • Plasmacytoid-derived DC • Follicular dendritic cells • Involved with B cell maturation

33. Organs of the Immune System • Primary • Thymus and bone marrow • Place of maturation of lymphocytes • Secondary • Lymph nodes, spleen, mucosa-associated lymphoid tissues such as gut-associated lymphoid tissues • Mature lymphocytes interact with antigen

35. Primary Lymphoid Organs • Bone marrow • Lymphocytes arise there, T cells go to thymus to mature • B cells mature here • 90% of plasma IgG and IgA comes from B cells in the bone marrow

36. Primary Lymphoid Organs • Thymus • T cell development and maturation • Bilobed organ above heart • Surrounded by capsule and divided into lobules • Outer part of lobule is cortex, inner is medulla • Network of epithelial cells, dendritic cells, and macrophages • Thymus will induce death of those T cells that can’t: • Recognize self-MHC molecules • Those that interact with MHC molecules too strongly (could produce autoimmune disorder) • Function decreases with age

38. Lymphatic System • Interstitial fluid (the portion that doesn’t enter venous system) is returned to circulatory system by lymphatic vessels • Largest lymphatic vessel – thoracic duct • Enters left subclavian vein • Lymph from right arm and right side of head enters through right lymphatic duct, drains into right subclavian • Antigen is carried by lymph to lymph nodes

39. Secondary Lymphoid Organs • Primary follicle • Unactivated lymphoid follicle • Secondary follicle • Follicle that is activated by antigen • Germinal center – area of activated B cells that will proliferate, go through somatic hypermutation and class switch

40. Secondary Lymphoid Organs • Lymph Nodes • Encapsulated • 3 regions: • Cortex • B cells, macrophages, dendritic cells • Primary follicles • Paracortex • T cells, dendritic cells • Medulla • Plasma cells secreting antibody

42. Secondary Lymphoid Organs • Spleen • Filters blood, traps blood-bourne antigens • Important in systemic infections • Blood enters through splenic artery • Encapsulated • Structure: • Projections from capsule form trabeculae • Compartments: • Red pulp • Macrophages, red blood cells • White pulp • Surrounds branches of splenic artery • Forms PALS (periarteriolar lymphoid sheath) • Primary follicles rich in B cells

45. Secondary Lymphoid Organs • Mucosa-Associated Lymphoid Tissue • MALT • Organized areas along digestive, respiratory, and urogenital tracts • Very well organized areas in intestine are referred to as Peyer’s patches • Includes tonsils and appendix

46. Cross-section of small intestine