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针对转甲状腺素蛋白淀粉样的生理 IgM 类催化抗体。

Physiological IgM class catalytic antibodies selective for transthyretin amyloid.

机构信息

From the Chemical Immunology Research Center, Department of Pathology and Laboratory Medicine, University of Texas-Houston Medical School, Houston, Texas 77030.

出版信息

J Biol Chem. 2014 May 9;289(19):13243-58. doi: 10.1074/jbc.M114.557231. Epub 2014 Mar 19.

DOI:10.1074/jbc.M114.557231
PMID:24648510
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4036335/
Abstract

Peptide bond-hydrolyzing catalytic antibodies (catabodies) could degrade toxic proteins, but acquired immunity principles have not provided evidence for beneficial catabodies. Transthyretin (TTR) forms misfolded β-sheet aggregates responsible for age-associated amyloidosis. We describe nucleophilic catabodies from healthy humans without amyloidosis that degraded misfolded TTR (misTTR) without reactivity to the physiological tetrameric TTR (phyTTR). IgM class B cell receptors specifically recognized the electrophilic analog of misTTR but not phyTTR. IgM but not IgG class antibodies hydrolyzed the particulate and soluble misTTR species. No misTTR-IgM binding was detected. The IgMs accounted for essentially all of the misTTR hydrolytic activity of unfractionated human serum. The IgMs did not degrade non-amyloidogenic, non-superantigenic proteins. Individual monoclonal IgMs (mIgMs) expressed variable misTTR hydrolytic rates and differing oligoreactivity directed to amyloid β peptide and microbial superantigen proteins. A subset of the mIgMs was monoreactive for misTTR. Excess misTTR was dissolved by a hydrolytic mIgM. The studies reveal a novel antibody property, the innate ability of IgMs to selectively degrade and dissolve toxic misTTR species as a first line immune function.

摘要

肽键水解催化抗体(catabodies)可以降解有毒蛋白质,但获得性免疫原理并未为有益的 catabodies 提供证据。转甲状腺素蛋白(TTR)形成错误折叠的β-片层聚集体,导致与年龄相关的淀粉样变性。我们描述了来自无淀粉样变性的健康人类的亲核 catabodies,它们可以降解错误折叠的 TTR(misTTR),而不对生理四聚体 TTR(phyTTR)产生反应。IgM 类 B 细胞受体特异性识别 misTTR 的亲电类似物,但不识别 phyTTR。IgM 类而不是 IgG 类抗体水解颗粒状和可溶性 misTTR 物质。未检测到 misTTR-IgM 结合。IgM 占未分级人血清中几乎所有 misTTR 水解活性的绝大部分。IgM 不会降解非淀粉样变性、非超抗原性蛋白质。个体单克隆 IgM(mIgM)表达不同的 misTTR 水解速率和不同的寡反应性,针对淀粉样β肽和微生物超抗原蛋白。mIgM 的一部分对 misTTR 具有单反应性。多余的 misTTR 被水解的 mIgM 溶解。这些研究揭示了一种新的抗体特性,即 IgM 选择性降解和溶解有毒 misTTR 物质的固有能力,作为一线免疫功能。

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