1. DISEASES OF IMMUNITY ROBERTO D. PADUA JR., MD, DPSP DEPARTMENT OF PATHOLOGY FATIMA COLLEGE OF MEDICINE

4. Mechanisms involved in Innate and Adaptive immunity

9. Different TLRs involved in response to different microbial products

21. CELLS OF THE IMMUNE SYSTEM Present Ag to CD4 T cells Precursors to macrophage lineage; cytokine release Class II MHC expressing cells Horse-shoe shaped nucleus Found in LN, blood, lungs and other organs Antigen Presenting Cells Monocytes Phagocytose and kill bacteria Parasitic defense and allergic response ___ None Staining with eosin ___ Granulocyte; short lifespan; multilobed nucleus Bilobed nucleus; heavily granulated cytoplasm See below Phagocytic cells: PMN’s Eosinophils Macrophages Kill antibody-decorated cells and virus-infected or tumor cells (no MHC restriction) Fc receptors for antibody: CD16, CD56, CD57 Large granular lymphocytes Natural Cytolytic cells: NK cells FUNCTION MARKERS CHARACTERISTICS CELLS

22. CELLS OF THE IMMUNE SYSTEM Initiate inflammatory and acute phase response; have antibacterial, antiviral and anti-tumor activities Transport Ag to LN Efficient Ag presenters Produce cytokines Filter particles from blood Large, granular cells; Fc and C3 receptors __ __ __ __ __ Possible residence in tissue, spleen, LN, and other organs; activated by IFN- γ and TNF Presence in skin LN, tissues CNS and brain Presence in liver See below Antigen Presenting Cells Macrophages Langerhan’s cells Dendritic cells Microglial cells Kupffer cells B cells FUNCTION MARKERS CHARACTERISTICS CELLS

23. CELLS OF THE IMMUNE SYSTEM Produce IL-2, other cytokines; stimulate T-cell and B-cell growth; promote B-cell differentiation, antibody production Promotes initial defenses (local) DTH, T killer cells Promote later humoral responses CD2, CD3, T-cell receptor CD2, CD3, T-cell receptor, CD4 IL-2, IFN- γ , lympho-toxin production IL-4, IL-5, IL-6, IL-10 production Mature in Thymus; large nucleus, small cytoplasm Helper/DTH cells; Activation by APCs via Class II MHC antigen presentation TH 1 subtype TH 2 subtype Antigen-Responsive Cells T cells (all) CD4 T cells FUNCTION MARKERS CHARACTERISTICS CELLS

24. CELLS OF THE IMMUNE SYSTEM Release Histamine, provide allergic response, anti-parasitic Fc receptor for IgE Granulocytic Other cells Basophils/Mast cells Produce antibody and present antigen Terminally differentiated, antibody factories Surface antibody, Class II MHC antigens __ Mature in Peyer’s patches, BM, bursal equivalent; large nucleus, small cytoplasm; activation by Ag and T-cell factors Small nucleus, large cytoplasm Antibody-, Producing Cells B cells Plasma cells Kill viral, tumor, non-self cells; secrete TH 1 lymphokines Suppress T- cell and B-cell response CD2, CD3, T-cell receptor, CD8 CD2, CD3, T-cell receptor, CD8 Recognition of Ag presented by Class I MHC antigens Recognition of Ag presented by Class I MHC antigens Antigen-Responsive Cells CD8 T killer cells CD8 T cells (suppressor cells ) FUNCTION MARKERS CHARACTERISTICS CELLS

32. SUBSETS OF T HELPER CELLS IN RESPONSE TO STIMULI (MAINLY CYTOKINES)

37. HLA and Disease Association 15.0 BW47 21-Hydroxylase deficiency 5 6 20 DR3 DR4 DR3/DR4 Type I diabetes 9 DR3 Primary Sjogren syndrome 13 DR3 Chronic active hepatitis 4 DR4 Rheumatoid arthritis 14 B27 Acute anterior uveitis 14 B27 Post-gonococcal arthritis 90 B27 Ankylosing spondylitis Relative Risk HLA Allele Disease

41. ۩ Results in tissue injury or other pathophysiological changes ۩ Occurs when an already sensitized individual is re- exposed to the same foreign substance ۩ May be immediate or delayed Hypersensitivity Reactions and Tissue Injury

42. Ensuing tissue injury may be caused by: ۩ Release of vasoactive substances ۩ Phagocytosis or lysis of cells ۩ Activation of inflammatory & cytolytic components of complement system ۩ Release of cytokines, proteolytic enzymes and other mediators of tissue injury or inflammation Hypersensitivity Reactions and Tissue Injury

49. Kinetics of the immediate and late-phase reactions

57. Vasodilatation, increased vascular permeability Smooth muscle spasm Cellular infiltration

67. Pathogenesis of Atopic Asthma

68. Asthma Mechanism: ► Allergy ► Inflammation of bronchi ► Obstruction ► Mucous Plugs

69. INFLAMMATION Airflow Limitation TRIGGERS Exercise Cold Air, diseases, Airway Hyperresponsiveness Genetic* INDUCERS Allergens,pollutants

70. Lung in Asthma with Mucous plugs

71. Mucous plug in asthma:

72. Asthma Microscopic Pathology Obstructed and inflamed bronchi

74. IgE and parasites: IgE binds to parasite, then Eosinophil binds Degranulation!

75. schistosoma ova eosinophils

80. Type II Hypersensitivity Reaction – Opsonization and Complement-and Fc-Receptor Mediated Phagocytosis

83. MECHANISMS: Antibody-Dependent Cell-Mediated Cytotoxicity (ADCC) Source: Robbins PATHOLOGIC BASIS OF DISEASE 6 th ed.

85. An example of type II hypersensitivity

86. Pathogenic functions of auto-antibodies ------------------------------------------------------------ type II hypersensitivity response - ex: RBC autoantibodies ==> hemolysis ------------------------------------------------------------ C’

88. Antibody-Mediated (Type II) Hypersensitivity – Complement-and Fc Receptor-Mediated Inflammation

91. Antibody-Mediated (Type II) Hypersensitivity – Antibody-Mediated Cellular Dysfunction

92. An example of type II hypersensitivity

93. Pathogenic functions of auto-antibodies ------------------------------------------------------------ type II hypersensitivity response - ex: GBM autoantibodies ==> glomerulonephritis Goodpasture’s syndrome GBM Podocytes

98. Pathogenesis of immune-complex disease

108. Vasculitis Immune complex vasculitis. The necrotic vessel wall is replaced by smudgy, pink “fibrinoid” material.

109. Fig 5-13 IF

110. Fig 5-12 EM

114. Mechanisms of Delayed Type Hypersensitivity Reactions

115. Mechanism of Direct T Cell Cytotoxicity

118. Formation of granuloma in Type IV Hypersensitivity

119. Granulomas Low Power High Power

120. Langhan’s Giant Cell Picture Robbins Textbook of Pathology 1971

127. TRANSPLANT REJECTION

136. Normal Kidney

138. Antibody- mediated damage to the blood vessel in a renal allograft. The blood vessel is markedly thickened and the lumen is obstructed by proliferating fibroblast and foamy macrophages.

143. Acute cellular rejection of a renal allograft R – Intense mononuclear cell infiltrate between the glomerulus and the tubules L – Tubules undergoing destruction by invading lymphocytes

144. Acute Tubulointerstitial Rejection

148. Schematic representation that lead to the destruction of histo-incompatible grafts

154. SOME TYPES OF TRANSPLANTS Graft contains pluripotential cells that repopulate host stem cells Host assumes donor ABO group Danger of graft-versus-host reaction and CMV infection Bone marrow Better survival with kidney from living donor than from cadaver Kidney Best allograft survival rate Danger of transmission of C-J disease Cornea COMMENTS TYPE OF TRANSPLANT

155. AUTOIMMUNE DISEASES

165. PERIPHERAL TOLERANCE  Silence potentially autoreactive T and B cells in peripheral tissues  Best defined for T cells  Mechanisms: 1. Anergy 2. Suppression by regulatory T cells 3. Deletion by activation-induced cell death

167. PERIPHERAL TOLERANCE Suppression by regulatory T cells  Regulatory T cells plays a major role in preventing immune reactions against self-antigens  CD4 T cells is the best defined regulatory T cells that expresses CD25, the alpha chain of the IL-2 receptor, and a transcription factor of the forkhead family (Foxp3) ***both are required for the development and maintenance of functional CD4+ regulatory T cells  Mutations in Fox3p result in severe autoimmunity ***cause of autoimmune disease called IPEX (immune dysregulation, polyendocrinopathy, enteropathy, X-linked)

168. PERIPHERAL TOLERANCE Deletion by activation-induced cell death  CD4+ T cells that recognize self-antigens may receive signals that promote their death by apoptosis  two mechanisms 1. Expression of a pro-apoptotic member of the Bcl family (Bim), without anti-apoptotic members of the family, Bcl-2 and Bcl-x  unopposed Bim triggers apoptosis by the mitochondrial pathway 2. Involves the Fas-Fas ligand system  engagement of Fas by FasL induces apoptosis of activated T cells by the death receptor pathway

169. MECHANISMS OF IMMUNOLOGICAL TOLERANCE

170. MECHANISMS OF IMMUNOLOGICAL TOLERANCE. 7H EDITION

172. Pathogenesis of Autoimmunity

175. POSTULATED ROLE OF INFECTIONS IN AUTOIMMUNITY

178. Microbial infections associated with autoimmune diseases Multiple sclerosis Mixed cryoglobulinemia Allergic encephalitis Scleroderma VIRUSES Hepatitis B virus Hepatitis C virus Measles virus Cytomegalovirus Rheumatic fever Guillain-Barre syndrome Primary biliary cirrhosis Reiter’s syndrome Reiter’s syndrome Grave’s disease Lyme arthritis BACTERIA Streptococcus pyogenes Campylobacter jejuni Escherichia coli Chlamydia trachomatis Shigella sp. Yersinia enterocolitica Borrelia burgdorferi Autoimmune disease Microbe

179. ORGAN-SPECIFIC AUTOIMMUNE DISEASES Intrinsic factor and parietal cells BM of kidney & lung Islet cell Adrenal cortex Sperm Desmoglein in tight junctions of skin Thyroglobulin Thyroid peroxidase Pernicious anemia Goodpasture’s synd. IDDM Addison’s disease Male infertility Pemphigus Hashimoto’s Primary myxedema Antibody to cell components other than receptors Acetylcholine receptor TSH receptor Myasthenia gravis Grave’s disease Antibody to receptors Target of Immune Response Autoimmune Disease Type of Immune Response

180. NON-ORGAN SPECIFIC AUTOIMMUNE DISEASES IgG in joints dsDNA, histones RNP antigens (SS-A/Ro and SS-B/La) Myelin protein Rheumatoid arthritis SLE Sjogren’s syndrome (Sicca syndrome) Guillain-Barre synd. Antibody to cell components other than receptors Target of Immune Response Autoimmune Disease Type of Immune Response

184. Model for the pathogenesis of SLE

185. MODEL FOR THE PATHOGENESIS OF SYSTEMIC LUPUS ERYTHEMATOSUS

188. CLINICAL MANIFESTATIONS OF SLE 100 80-90 85 55-85 80-100 60 50-70 25-35 45 35 25 20 15-40 15 15 8 th Edition

189. Multisystem manifestations of Systemic Lupus Erythematosus. SLE affects a wide range of tissues and organ systems

191. DISCOID RASH

199. Libman-Sacks endocarditis of the mitral valve in lupus erythematosus. The vegetations attached to the margin of the thickened valve leaflet are indicated by arrows.

202. Lupus nephritis, focal proliferative type. There are two focal necrotizing lesions in the glomerulus (arrows)

203. Lupus nephritis, diffuse proliferative type. There is marked increase in cellularity throughout the glomrulus

204. Immune complex deposition in SLE. IF micrograph of a glomrulus stained with anti-IgG from a patient with diffuse proliferative lupus nephritis.

205. Immune complex deposition in SLE. Electron micrograph of a renal glomerular capillary loop showing subendothelial dense deposits corresponding to “wire loops” seen by light microscopy. Deposits are also seen in the mesangium.

206. Lupus nephritis. A glomerulus with several “wire loop” lesions representing extensive subendothelial deposits of immune complexes.

209. Acute Rheumatic vegetations:

210. Fish-mouth Mitral stenosis

213. Multisystem manifestations of Rheumatoid arthritis. Although the initial manifestation is usually arthritis, Rheumatoid disease is a systemic illness.

216. Rheumatoid synovitis. The synovium is swollen and shows villous pattern. There is great increase in chronic inflammatory cells in the synovial stroma, often with exudate in the joint space and fibrin deposited on the synovial surface.

217. Articular cartilage destruction. Vascular granulation tissue grows across the surface of the carilage (pannus) from the edges of the joint, and the articular surface shows loss of cartilage beneath the extending pannus.

218. The inflammatory pannus causes FOCAL DESTRUCTION OF BONE. At the edges of the joint there is osteolytic destruction of bone. This phase is associated with joint deformity.

220. The characteristic deformity and soft tissue swelling associated with long-standing rheumatoid disease of the hands.

224. Rheumatoid nodule. At the elbow there is a large raised subcutaneous nodule. The nodule is composed of degenerate collagen (arrow) surrounded by a chronic reaction with macrophages and giant cells, and walled off by fibrosis.

238. Possible mechanisms leading to systemic sclerosis

239. Schematic illustration of the possible mechanisms leading to systemic sclerosis

243. Multisystem manifestations of Systemic Sclerosis. Systemic Sclerosis affects a wide range of tissues and organ systems, often as a result of vascular obliteration.

244. The fingers in some patients with Systemic Sclerosis are narrowed, with tight shiny skin. Subcutaneous calcification (calcinosis cutis) can also be seen as white spots on the edges of the fingers.

256. DERMATOMYOSITIS Take note of the rash affecting the eyelids.

257. DERMATOMYOSITIS The histologic appearance of muscle shows fascicular inflammation and atrophy.

258. INCLUSION BODY MYOSITIS Shows a vacuole within a myocyte.

260. ANTINUCLEAR ANTIBODIES IN VARIOUS AUTOIMMUNE DISEASES

262. IMMUNODEFICIENCY SYNDROMES

265. Simplified scheme of lymphocyte development and sites of block in primary immunodeficiency diseases

293. Schematic illustration of an HIV-1 virion

294. HIV proviral genome. Several viral genes and their corresponding functions

295. Life cycle of HIV, showing the steps from viral entry to production of infectious virions

296. Molecular basis of HIV entry into host cells.

297. Pathogenesis of HIV-1 infection.

298. Pathogenesis of HIV infection

299. Mechanisms of CD4+ T-cell loss in HIV infection

300. Multiple effects of loss of CD4 + T cells as a result of HIV infection

302. CDC Classification Categories of HIV infection AIDS, indicator conditions: constitutional disease, neurologic disease, or neoplasm B3 B2 B1 Symptomatic, not A nor C conditions A3 A2 A1 Asymptomatic, acute (primary) HIV, or persistent generalized lymphadenopathy 3 <200 cells/uL 2 200-499 cells/uL 1 > 500 cells/uL Clinical Categories

305. Typical course of HIV infection

309. Algorithm for Serologic Testing for AIDS

310. AMYLOIDOSIS

312. Structure of an amyloid fibril

313. Amyloid structure

314. A section of the liver stained with Congo Red Yellow-green birefringence of the deposits observed under polarizing microscope

320. Proposed mechanisms in the pathogenesis of amyloidosis

324. Amyloidosis of the kidney. The glomerular architecture is almost totally obliterated by the massive accumulation of amyloid

329. THANK YOU!