| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 10738179 | Free Radical Biology and Medicine | 2012 | 10 Pages |
Abstract
⺠Loss of superoxide decreases TLR3 and TRIF expression and TNF-α and IFN-α/β synthesis in poly(I:C)-stimulated NOD.Ncf1m1J macrophages. ⺠Defects in NF-κB signaling may account for dysregulated TLR3 expression. ⺠Exogenous superoxide can rescue TNF-α, but not IFN-α/β production; thus, type I interferon synthesis may be mediated in part by a NOX-independent mechanism. ⺠Compromised antiviral and innate immune responses in NOX-deficient NOD mice may partially explain resistance to type 1 diabetes.
Keywords
NF-κBIFN-α/βIκB-αNCF1TRAFMDA5RIG-IIRF3TBK1PKRT1DTLRNODXanthine oxidaseNOxROSTRIFNADPH oxidaseInnate immunityInterferon-α/βtumor necrosis factor-αTANK-binding kinase 1Toll-like receptorType 1 diabetesNonobese diabeticFree radicalsSODSuperoxideSuperoxide dismutaseInterferon regulatory factor 3neutrophil cytosolic factor 1TNF-αnuclear factor κBMacrophageBone marrow-derived macrophagesmajor histocompatibility complexMHCNOD mousepoly(I:C)Polyinosinic–polycytidylic acidmelanoma differentiation-associated gene 5retinoic acid-inducible gene IReactive oxygen species
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Authors
Maria C. Seleme, Weiqi Lei, Ashley R. Burg, Kah Yong Goh, Allison Metz, Chad Steele, Hubert M. Tse,