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带有共价结合C3b的IgG对大肠杆菌O111具有增强的杀菌活性。

IgG bearing covalently bound C3b has enhanced bactericidal activity for Escherichia coli 0111.

作者信息

Joiner K A, Fries L F, Schmetz M A, Frank M M

出版信息

J Exp Med. 1985 Sep 1;162(3):877-89. doi: 10.1084/jem.162.3.877.

DOI:10.1084/jem.162.3.877

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2187805/

Abstract

The mechanism was sought by which bactericidal IgG for E. coli 0111 (strain 12015) increases the bactericidal efficiency of C5b-9. IgG did not affect the distribution of C3 deposition on the O-Ag capsule and the outer membrane of 12015, suggesting that bactericidal IgG was not directing complement activation to different sites on the bacterial surface. However, one-fifth of the C3 that was deposited in the presence of IgG attached covalently to the antibody molecule. Covalent complexes between purified C3b and IgG were prepared in order to study the role of C3b-IgG in the bactericidal reaction. 8-10-fold less C3b-IgG than IgG was necessary to sensitize 12015 for serum killing. When aggregates were eliminated from the C3b-IgG and IgG preparations by sucrose density gradient ultracentrifugation, C3b-IgG remained three- to fourfold more effective than IgG on a molecule-for-molecule bound basis in mediating the serum bactericidal reaction. These results suggest that formation of C3b-IgG during the serum bactericidal reaction is critical for killing, and have important implications for the development of effective bactericidal vaccines.

摘要

人们探寻了抗大肠杆菌O111（菌株12015）的杀菌性IgG提高C5b-9杀菌效率的机制。IgG并不影响C3在12015的O抗原荚膜和外膜上的沉积分布，这表明杀菌性IgG并未将补体激活引导至细菌表面的不同位点。然而，在有IgG存在的情况下沉积的C3中有五分之一与抗体分子共价结合。制备了纯化的C3b与IgG之间的共价复合物，以研究C3b-IgG在杀菌反应中的作用。使12015对血清杀伤敏感所需的C3b-IgG比IgG少8至10倍。当通过蔗糖密度梯度超速离心从C3b-IgG和IgG制剂中去除聚集体时，在介导血清杀菌反应方面，基于分子对分子结合的基础，C3b-IgG的有效性仍比IgG高三至四倍。这些结果表明，血清杀菌反应过程中C3b-IgG的形成对杀菌至关重要，并且对有效杀菌疫苗的开发具有重要意义。