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Download Kuby Immunology 6/e - Dr. Jennifer Capers
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Transcript
Chapter 16 Tolerance and Autoimmunity Dr. Capers Kindt • Goldsby • Osborne Kuby IMMUNOLOGY Sixth Edition Chapter 16 Tolerance and Autoimmunity Copyright © 2007 by W. H. Freeman and Company “Horror Autotoxicus” Failure of host’s humoral and cellular immune systems to distinguish self from non-self Autoimmunity Can result in tissue and organ damage, can be fatal Tolerance # of mechanisms are in place to protect individual from self-reactive lymphocytes Central tolerance – deleting T or B clones before maturity if they have receptors that recognize self-antigens with great affinity Peripheral tolerance – kills lymphocytes in secondary lymphoid tissue ○ Also, life span of lymphocytes regulated by apoptosis Some antigens can produce tolerance Termed tolerogens rather than immunogens ○ High dosages of antigen ○ Persistance of antigen in host ○ IV or oral introduction ○ Absence of adjuvants ○ Low levels of costimulators CD28 will bind to B7 and provide activating signals; however, it was discovered that another receptor, CTLA-4 will bind to B7 and inhibit Anergy Unresponsiveness to antigenic stimulus The F1 mouse does not have any B cells that Express anti-HEL antibodies Peripheral Tolerance May be induced by Treg cells ○ Unique group of CD4+ T cells ○ Recognize selfantigens on immune system cells and seem to be able to suppress immune system ○ Induce cell death in some immune cells Organ-specific autoimmune diseases Target antigen specific to organ or gland Cellular lysis and chronic inflammation that can damage organ Hashimoto’s Thyroiditis Mainly middle-aged women Target is thyroid antigens Goiter can form Hypothyroidism - decrease Autoimmune anemias Pernicious anemia ○ Ab against membrane bound intestinal protein that uptakes B12 - needed for hematopoiesis Hemolytic anemia ○ Abs to red-blood cell antigens Drug-induced anemia Goodpasture’s syndrome Abs against basement membranes in glomeruli and aveoli Leads to kidney damage and pulmonary hemmorhage Insulin-Dependent Diabetes Mellitus Abs against beta cells that produce insulin Insulin is needed by cells to uptake glucose needed for cellular respiration In some autoimmune diseases, antibodies act as agonists Bind inappropriately to receptors, resulting in overproduction ○ For example, up-regulating a hormonal response without the presence of that hormone ○ Grave’s Disease – auto-Ab binds to receptor for thyroid stimulating hormone resulting in over-stimulation of thyroid ○ Myasthenia gravis Auto-Abs bind acetylcholine receptors on motor end plate of muscles – progressively weakened skeletal muscles Systemic Autoimmune Diseases Response is directed toward wide range of target antigens Systemic Lupus Erythematosus Typically middle-aged women Fever, weakness, arthritis, skin rash, kidney problems Produce auto-Abs to DNA, histones, platelets, leukocytes, clotting factors Excessive complement activation Multiple sclerosis Numbness, paralysis, vision loss Inflammatory lesions in myelin sheath caused by T cells Epidemiology ○ Frequent in African American and Hispanic women ○ More common in Northern Hemisphere, more common north of 37th parallel ○ Environmental components as well as genetic components Rheumatoid Arthritis Chronic inflammation of joints Produce auto-Abs that bind Fc portion of IgG circulating in blood that creates immune complexes Animal Models Autoimmunity develops spontaneously in some lab animals and can be induced with manipulation Rabbits injected with acetylcholine receptors from eels ○ Soon developed muscular weakness as seen with Myasthenia gravis Animal models have implicated CD4+ T cells to be primary mediator of some autoimmune responses Treatment with anti-CD4 antibodies can help Some studies have shown association between expressing particular MHC allele and susceptibility to autoimmunity Individuals that express HLA-B27 have 90 times greater chance of having ankylosing spondylitis (spine inflammation) ○ Interestingly, most of those are male even though women are more likely to suffer from autoimmune disease Proposed mechanisms for induction of autoimmunity Release of sequestered antigens ○ Blood-brain barrier, sperm released into tissues during vasectomy Molecular mimicry Inappropriate expression of Class II MHC ○ Non-antigen presenting cells will for some reason express Class II MHC - Can be caused by viral infection ○ This allows them to present self antigen to T helper cells – leads to inappropriate reaction Treatment Immunosuppressive drugs Removal of thymus (for example, with myasthenia gravis) Plasmapheresis – removing plasma and then returning RBCs (removes extra immune complexes) Treating the inflammation Antigen given orally can induce tolerance
