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独特型网络诱导的自身抗独特型抗体对天然抗同种异型抗体应答的调节

Regulation of natural antiallotype antibody responses by idiotype network-induced auto-antiidiotypic antibodies.

作者信息

Rodkey L S, Adler F L

出版信息

J Exp Med. 1983 Jun 1;157(6):1920-31. doi: 10.1084/jem.157.6.1920.

DOI:10.1084/jem.157.6.1920

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2187037/

Abstract

This study was designed to determine whether natural immune responses could elicit immunoregulatory auto-antiidiotypic antibodies. Female rabbits heterozygous at the a and b Ig loci were bred to homozygous males. Offspring of one such breeding were studied for natural production of antibodies specific for the noninherited allotypes and for the production of immunoregulatory auto-antiidiotypic antibodies. All offspring mounted natural antiallotype responses. The anti-a1 responses cycled as a function of time whereas the anti-b5 responses were invariant. Anti-a1 responses from two offspring were shown to change specificity for different a1 subsets as they cycled. Anti-a1 was purified from the first cycle and was used to assay for auto-antiidiotypic responses. Auto-antiidiotypic antibodies were detected and were found to cycle in an inverse way with the anti-a1 cycles. The idiotopes detected using the natural auto-antiidiotypic antisera were strongly cross-reactive. Subsequent deliberate immunization showed that antibodies specific for all a1 subsets could be elicited after auto-antiidiotypic regulation had functioned. The data support the interpretation that idiotype network interactions indeed function in naturally occurring immunologic situations and are not merely laboratory curiosities or artifacts.

摘要

本研究旨在确定天然免疫反应是否能引发免疫调节性自身抗独特型抗体。将在a和b Ig位点杂合的雌性兔子与纯合雄性兔子进行交配。对其中一次此类交配的后代进行研究，观察其针对非遗传异型的特异性抗体的天然产生情况以及免疫调节性自身抗独特型抗体的产生情况。所有后代均产生了天然抗异型反应。抗a1反应随时间呈周期性变化，而抗b5反应则保持不变。来自两个后代的抗a1反应在周期性变化过程中显示出对不同a1亚群的特异性改变。从第一个周期中纯化出抗a1，并用于检测自身抗独特型反应。检测到了自身抗独特型抗体，发现其与抗a1周期呈相反的周期性变化。使用天然自身抗独特型抗血清检测到的独特型表位具有很强的交叉反应性。随后的有意免疫表明，在自身抗独特型调节发挥作用后，可以引发针对所有a1亚群的特异性抗体。这些数据支持这样一种解释，即独特型网络相互作用确实在自然发生的免疫情况下发挥作用，而不仅仅是实验室中的奇闻或人为现象。