N Verna scite author profile

Reperfusion injury of ischemic tissue represents an acute inflammatory response that can cause significant morbidity and mortality. The mechanism of injury is not fully elucidated, but recent studies indicate an important role for natural antibody and the classical pathway of complement. To test the hypothesis that injury is initiated by specific IgM, we have screened a panel of IgMproducing hybridomas prepared from peritoneal cells enriched in B-1 cells. One clone, CM22, was identified that could restore pathogenic injury in RAG-1 ؊/؊ mice in an intestinal model of ischemia͞reperfusion (I͞R). In situ activation of the classical pathway of complement was evident by deposition of IgM, complement C4, and C3 in damaged tissue after passive transfer of CM22 IgM. Sequence analysis of CM22 Ig heavy and light chains showed germ-line configurations with high homology to a V H sequence from the B-1 repertoire and a VK of a known polyreactive natural IgM. These data provide definitive evidence that I͞R injury can be initiated by clonally specific natural IgM that activates the classical pathway of complement. This finding opens an avenue for identification of I͞R-specific self-antigen(s) and early prevention of injury.

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Identification of the target self-antigens in reperfusion injury

Zhang

et al. 2006

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Reperfusion injury (RI), a potential life-threatening disorder, represents an acute inflammatory response after periods of ischemia resulting from myocardial infarction, stroke, surgery, or trauma. The recent identification of a monoclonal natural IgM that initiates RI led to the identification of nonmuscle myosin heavy chain type II A and C as the self-targets in two different tissues. These results identify a novel pathway in which the innate response to a highly conserved self-antigen expressed as a result of hypoxic stress results in tissue destruction.

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N Verna

Identification of a specific self-reactive IgM antibody that initiates intestinal ischemia/reperfusion injury

Identification of the target self-antigens in reperfusion injury

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