Molecular mimicry: can epitope mimicry induce autoimmune disease?
about
Treatment with benznidazole during the chronic phase of experimental Chagas' disease decreases cardiac alterationsAcute disseminated encephalomyelitisMolecular mimicry of human cytochrome P450 by hepatitis C virus at the level of cytotoxic T cell recognitionA new arthritis therapy with oxidative burst inducersRheumatoid arthritis sera react with a phage-displayed peptide selected by a monoclonal antibody to type II collagen that has homology to EBNA-1.Prevention of experimental antiphospholipid syndrome and endothelial cell activation by synthetic peptides.Phagotopes derived by antibody screening of phage-displayed random peptide libraries vary in immunoreactivity: studies using an exemplary monoclonal antibody, CII-C1, to type II collagen.Carbohydrate mimicry between human ganglioside GM1 and Campylobacter jejuni lipooligosaccharide causes Guillain-Barre syndrome.Specific immunoassays confirm association of Mycobacterium avium Subsp. paratuberculosis with type-1 but not type-2 diabetes mellitus.Chagas' disease and the autoimmunity hypothesis.Modulation of cardiocyte functional activity by antibodies against trypanosoma cruzi ribosomal P2 protein C terminus.Molecular mimicry and multiple sclerosis: degenerate T-cell recognition and the induction of autoimmunity.The Role of Infection and Immune Responsiveness in a Case of Treatment-Resistant Pediatric Bipolar DisorderMacromolecular mimicryActive lymphocytic myocarditis treated with murine OKT3 monoclonal antibody in a patient presenting with intractable ventricular tachycardia.The role of T cells in autoimmune uveitis.Unresolved issues in theories of autoimmune disease using myocarditis as a frameworkCurrent understanding of the pathogenesis of autoimmune inner ear disease: a review.In vivo survival of viral antigen-specific T cells that induce experimental autoimmune encephalomyelitis.De novo design of protein mimics of B-DNAHumoral immune responses of type 1 diabetes patients to Mycobacterium avium subsp. paratuberculosis lend support to the infectious trigger hypothesis.Immunology and immunopathology of African trypanosomiasis.The Potential Roles of Bisphenol A (BPA) Pathogenesis in Autoimmunity.Correlation between chlamydial infection and autoimmune response: molecular mimicry between RNA polymerase major sigma subunit from Chlamydia trachomatis and human L7.The pathogenesis and diagnosis of systemic lupus erythematosus: still not resolved.Autoimmune pathogenesis of Chagas heart disease: looking back, looking ahead.A Role for RNA Viruses in the Pathogenesis of Burkitt's Lymphoma: The Need for Reappraisal.Mycobacterium avium subsp. paratuberculosis as a trigger of type-1 diabetes: destination Sardinia, or beyond?Molecular mimicry of MAGE-A6 and Mycoplasma penetrans HF-2 epitopes in the induction of antitumor CD8(+) T-cell responses.Rethinking Molecular Mimicry in Rheumatic Heart Disease and Autoimmune Myocarditis: Laminin, Collagen IV, CAR, and B1AR as Initial Targets of DiseaseMycobacterium avium subsp. paratuberculosis in an Italian cohort of type 1 diabetes pediatric patients.The promise of the anti-idiotype concept.miPepBase: A Database of Experimentally Verified Peptides Involved in Molecular Mimicry.Postinfectious immunodeficiency and autoimmunity: pathogenic and clinical values and implications.Wild isolates of murine cytomegalovirus induce myocarditis and antibodies that cross-react with virus and cardiac myosin.Roles of Host Immunity in Viral Myocarditis and Dilated Cardiomyopathy.Autoimmunity in Chronic Chagas Disease: A Road of Multiple Pathways to Cardiomyopathy?
P2860
Q24520510-BBF8B417-39AA-4FD4-85B1-287673B121F3Q24680409-8DDE3D90-382E-4B35-B854-3AB1F85ADEA7Q27485138-04E4E9EC-B25D-4070-AB8D-0753DA44E516Q28469045-4D9A4843-A1DE-4C94-BAF2-4503D312C33AQ30644461-20C08996-8A76-4FC9-8531-EBC7BB05E6FAQ30676844-92985FFA-8ACB-43A3-AF60-EDDF4E6FB4B0Q30817215-39C084B4-949B-4EF5-95DE-F9D3D0AE2692Q30827235-E522A555-BC77-447B-BF51-7D5F0E957F28Q30858199-6F0AA51F-4818-4A02-BDA5-FA198CFD8CC9Q33588893-CFDB993A-7DED-446E-8ACA-80C298B504A4Q33598996-C6AF7E3C-1622-48AD-B594-02601D2E2B4CQ33630981-4FD4E8D2-5E2D-430E-8C34-A519D55C26EBQ33710937-469EE526-0057-40A5-AF7A-97EEF6BD1C65Q33838081-C3F8CF6F-F15F-48F6-A6DF-E36024EEAA1CQ33881168-8FE60746-B17C-4E8E-93BA-89573C3D58EBQ34027100-19DD7645-F993-4103-841F-ACFD49164982Q34452486-065EF0C1-97F4-4176-815B-1C34D0805BB1Q34470509-1071C09B-668B-4AC2-A0EC-CF216F592EE7Q36401750-306277D7-9614-4396-85A0-98A583892D9CQ36425607-FC7E8630-F63B-44D2-BC97-D9BA40676152Q36452334-082D1C24-F1C1-4D7E-A1FB-005276EB934FQ36672751-95C70191-E735-41AD-892A-5E3C60D33A4CQ37720358-212F408F-FD2C-4001-B551-02D0EA46C5B8Q37879615-BC6A93F7-8F05-496C-8FB9-B8DFED8DDD01Q38206945-CFDFF26B-3C46-4D69-AC7C-5560AC8BAEE5Q38412987-02807F4F-C02F-4E50-88FE-42B98AF264AAQ40288450-CA39CAFA-767A-4850-B5E0-39177C67115CQ40481202-98DF8E98-7A94-4665-A869-13870209E8A9Q40953830-18373CD8-F2AD-41FB-A4ED-09FF093C5552Q41752576-2490EA3B-0F2E-4721-8CB9-1DB6D5813B1CQ41787880-E1CF3437-445C-4869-8B7A-FBE6A830CE93Q42419120-70F5CCA0-5FB5-4ECE-81AC-DB902D3AE41FQ43213623-1ECE6984-CC13-4BC6-96A6-691E2ADDBF36Q43944431-1FEC2180-E4AE-4AEB-8D27-0E574AED7520Q45753788-E312CBA4-8C40-44CA-933E-9D69D88FAB64Q55166882-46ABFE23-A147-4D36-8FD6-30164C387E40Q58799039-315F9615-99C4-4D2B-B443-4B7C19835CC2
P2860
Molecular mimicry: can epitope mimicry induce autoimmune disease?
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
1997年论文
@zh
1997年论文
@zh-cn
name
Molecular mimicry: can epitope mimicry induce autoimmune disease?
@en
type
label
Molecular mimicry: can epitope mimicry induce autoimmune disease?
@en
prefLabel
Molecular mimicry: can epitope mimicry induce autoimmune disease?
@en
P2860
P356
P1476
Molecular mimicry: can epitope mimicry induce autoimmune disease?
@en
P2093
P2860
P304
P356
10.1038/ICB.1997.16
P577
1997-04-01T00:00:00Z