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另一种补体途径：豚鼠血清处理后，内毒素脂多糖上的C-3裂解活性，非由C4,2a引起；与备解素的关系。

An alternate complement pathway: C-3 cleaving activity, not due to C4,2a, on endotoxic lipopolysaccharide after treatment with guinea pig serum; relation to properdin.

作者信息

Marcus R L, Shin H S, Mayer M M

出版信息

Proc Natl Acad Sci U S A. 1971 Jun;68(6):1351-4. doi: 10.1073/pnas.68.6.1351.

DOI:10.1073/pnas.68.6.1351

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC389187/

Abstract

The reaction between endotoxic lipopolysaccharide (LPS) and the guinea pig complement system was shown to proceed by way of an intermediate complex, LPS-X, which contains at least six guinea pig serum proteins. LPS-X, like [unk] (sheep erythrocytes carrying antibody molecules and [unk] complexes), destroys the C3 molecule by cleavage. On incubation at 37 degrees C, LPS-X loses its capacity to destroy C3 at about the same rate as the decay of [unk], so that it has been assumed that LPS-X carries [unk] sites that are responsible for the destruction of C3. We have now shown that monospecific rabbit antiguinea pig C2, which effectively inhibits C3 cleavage by [unk], does not interfere with the destruction of C3 by LPS-X. Furthermore, not more than a trace of C2a(d) is released from LPS-X on incubation at 37 degrees C. These results indicate that LPS-X does not carry a significant quantity of [unk] and, hence, that its capacity to destroy C3 is due to another factor which is presumably a component of the properdin system.

摘要

内毒素脂多糖（LPS）与豚鼠补体系统之间的反应显示是通过一种中间复合物LPS-X进行的，LPS-X包含至少六种豚鼠血清蛋白。LPS-X与[未明确物质]（携带抗体分子的绵羊红细胞和[未明确复合物]）一样，通过裂解破坏C3分子。在37℃孵育时，LPS-X失去破坏C3的能力的速率与[未明确物质]的衰变速率大致相同，因此人们认为LPS-X带有负责破坏C3的[未明确位点]。我们现在已经表明，能有效抑制[未明确物质]裂解C3的单特异性兔抗豚鼠C2，并不干扰LPS-X对C3的破坏。此外，在3７℃孵育时，从LPS-X中释放出的C2a(d)不超过微量。这些结果表明，LPS-X不携带大量的[未明确物质]，因此，其破坏C3的能力归因于另一个因素，推测该因素是备解素系统的一个成分。