1 / 29

Autoimmune Diseases

Autoimmune Diseases. Lecture 3 Monday, January 22, 2007 Ref. Immunology Chapter 16 Basic Pathology Chapter 5 p. 125-144. Pernicious anemia. Due to malabsorption of Vitamin B 12 . Lack of B 12 prevents normal maturation of erythroblasts.

betsy
Download Presentation

Autoimmune Diseases

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Autoimmune Diseases Lecture 3 Monday, January 22, 2007 Ref. Immunology Chapter 16 Basic Pathology Chapter 5 p. 125-144

  2. Pernicious anemia • Due to malabsorption of Vitamin B12. • Lack of B12 prevents normal maturation of erythroblasts. • There are too few RBCs (anemia), and they are abnormally large (megaloblastic). • The malabsorption of B12 is due to lack of secretion of intrinsic factor by gastric parietal cells. • Autoimmune gastritis destroys parietal cells. Auto-antibodies are present, but T cells are required in the experimental model.

  3. Poststreptococcal glomerulonephritis • An example of disease mediated by Ag:Ab complexes, similar to a type III hypersensitivity reaction. • Occurs 1-4 weeks after a streptococcal infection of the pharynx or skin. • Usually in children. • Granular deposits in the glomerulus. • Prognosis in children is quite good with recovery in about 95% of cases.

  4. Spontaneous infertility • Normally, the inner portions of the seminiferous tubules are immunoprivileged sites. • Exposure of sperm to the immune system can result in autoantibody production.

  5. Systemic autoimmune diseases • Involve multiple systems • often multiple autoantibodies and/or T cells to self antigens • Lesions are usually located in connective tissue and blood vessels of affected organs. • Sometime referred to as collagen vascular diseases or connective tissue diseases. • The self antigen is not connective tissue

  6. Systemic autoimmune diseases • Systemic lupus erythematosus (SLE) • Ankylosing spondylitis • Multiple sclerosis • Rheumatoid arthritis • Scleroderma • Sjogren’s syndrome

  7. Systemic lupus erythematosus (SLE) • Many organs may be involved and clinical signs include glomerulonephritis, fever, polyarthritis, polymyositis, weakness, thrombocytopenia, anemia, and vasculitis. • Antinuclear antibodies are common. Patients may have autoantibodies to many tissue antigens. • More common in women than in men. • Women : Men ratio is 10:1 • Part of the damage is due to circulating immune complexes.

  8. Ankylosing spondylitis • Spondylitis is inflammation of the vertebrae. • Clinical signs are pain and stiffness. • Strong association of disease with MHC allele B27. • Relative risk for a person with HLA B-27 is 90.

  9. Multiple sclerosis • Mediated by auto-reactive T cells. • Lesions are demyelination and occur in brain and spinal cord. • Clinical signs are intermittent, remitting and relapsing, and generally progressive eventually leading to paralysis and loss of vision. • Cause is unknown--many false alarms such as measles or owning dogs (distemper virus), etc. • A viral infection may trigger or predispose to MS. • Environment and genetics are important (higher incidence above the 37th parallel and higher concordance in monozygotic twins).

  10. Rheumatoid arthritis • Damage appears to be due mainly to self-reactive T cells. • Most frequently begins in women aged 20-40. • F:M is 3-5:1 • Susceptibility is associated with HLA alleles • Rheumatoid factors are autoantibodies (usually IgM) against the Fc region of IgG, but are probably not critical to the cause of disease. • Inflammatory reaction leads to destruction of joints.

  11. Scleroderma • Chronic hardening and shrinking of the connective tissue in any part of the body • Often affects skin, heart, esophagus, kidney, lung.

  12. Sjogren’s syndrome • Named for a Swedish ophthalmologist. • Occurs in middle-aged or older women. • Signs include keratoconjunctivitis, pharyngitis sicca, enlargement of the parotid glands, chronic polyarthritis, and xerostomia (dry mouth).

  13. Animal models • Autoimmunity develops spontaneously in some • NOD mice develop type 1 diabetes mellitus • (NZB x NZW) F1 mice develop an SLE-like disease • Autoimmunity can be induced experimentally • Immunization with AChR produces experimental autoimmune myasthenia gravis. • Immunization with myelin basic protein or proteolipid protein causes a multiple sclerosis-like disease (EAE) • Both types of models have been useful in studying autoimmunity.

  14. Knowledge gained from studies in animal models • Mechanisms • Production of anti-AChR antibodies in rabbit lead to discovery of cause of myasthenia gravis. • In EAE, T cells were shown to mediate the disease. MBP-specific T cells transferred disease to naïve animals. • Treatment • Strategies for intervening in autoimmune disease such as depleting T cells, using monoclonal antibodies, and induction of tolerance have been tested in models.

  15. Experimental autoimmune encephalomyelitis in rats KI 16-11

  16. Proposed mechanisms for induction of autoimmunity • Release of sequestered antigen • Lens proteins in the eye are normally sequestered. Injury to eye may lead to formation of auto-antibodies • Molecular mimicry (see table16-3) • Inappropriate expression of Class II MHC • Polyclonal B-cell activation • Failure to develop peripheral tolerance. • These mechanisms are not mutually exclusive, and it is likely that more than one event triggers autoimmunity.

  17. Proposed mechanisms for induction of autoimmunity KI 16-12

  18. Sequence homology between pathogens and human proteinsTable 16-3

  19. Evidence for inappropriate antigen presentation • Beta cells in diabetic patients express class II MHC • IFN-g increases the expression of class II MHC • Transgenic mice that over-express IFN -g in the islets, develop type 1 diabetes.

  20. Experimental model of type 1 diabetes mellitus.KI 16-13a

  21. Islets of Langerhans: Left = normal; Right = experimental model of Type 1 diabetes mellitus KI 16-13b

  22. Development of peripheral tolerance • Lack of costimulation leads to anergy. • absence of B7 on most cells • Binding of CTLA-4 to B7 inhibits T cell activation • After activation of T cell, CTLA-4 expression is induced. • Mice lacking CTLA-4 develop massive lymphoproliferation and autoimmune disease. • Treg cells inhibit T-cells in an antigen-specific manner • Direct contact is required.

  23. Regulatory T cells • A unique subset of CD4+ T cells • Have a T-cell receptor specific for self antigen. • Also express high levels of CD25 (IL-2Ra chain) • Express cytokines • IL-4 • IL-10 • TGFb • Develop from thymocytes with intermediate affinity for self antigen. • Kronenberg and Rudensky, 2005, Nature 435:598

  24. Treg cells are generated in the thymus. They are a subset of CD4+,CD25+ cells. KI 16-14

  25. Activation-induced cell death • Activation-induced cell death is essential for both central and peripheral tolerance. • Fas-Fas ligand interaction is important in activation-induced cell death. • Mice lacking Fas (lpr/lpr) and mice lacking FasL (gld/gld) develop autoimmune disease early in life. • In a rare human disease (autoimmune lympho-proliferative syndrome), patients have mutations of Fas and severe autoimmune disease.

  26. Treatment of autoimmunity • Immunosuppression • Corticosteroids, cyclophosphamide, etc. increase risk of infection and cancer • Cyclosporin A or FK506-only inhibits activated T cells • Vaccination against disease-causing T cells • Worked in EAE, requires custom immunogen • Monoclonal antibodies • Against CD4, IL-2 R, MHC, TCR, peptides, etc. • Induction of tolerance • Some effectiveness of oral tolerance to MBP in mice.

  27. Sites for experimental monoclonal antibodies that block autoimmune disease Imm 20-10

  28. Anti-CD4 treatment improved survival in a mouse model of lupus KI 16-14

  29. Antibody specific for a Vb allele decreased clinical signs in experimental autoimmune encephalomyelitis KI 16-15

More Related