破伤风类毒素-抗破伤风类毒素复合物：一种研究人类免疫复合物补体转运系统的潜在模型。

Tetanus toxoid-anti-tetanus toxoid complexes: a potential model to study the complement transport system for immune complex in humans.

作者信息

Paccaud J P, Steiger G, Sjöholm A G, Spaeth P J, Schifferli J A

机构信息

Department of Medicine, Hôpital Cantonal Universitaire, Geneva, Switzerland.

出版信息

Clin Exp Immunol. 1987 Aug;69(2):468-76.

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1542393/

Abstract

Complement and its receptor on erythrocytes appears to play a physiological role in the elimination of large immune complexes (IC) in monkeys, and a similar system is likely to work in humans. Here we define a safe IC model which is suitable for clinical investigations. Soluble tetanus toxoid (TT)-human anti-TT (IgG) antibody complexes were prepared in large antibody excess. The size of the complexes was approximately 45 S. When incubated in normal human serum, 50% of the IC increased further in size, but remained soluble, and bound rapidly to human erythrocytes in vitro. This binding was shown to require intact classical pathway function. When injected into normal guinea-pigs a comparable proportion of IC bound immediately to blood cells (mainly to platelets). No platelet binding of IC occurred in C4-deficient guinea-pigs, but this binding was restored when C4 was supplied. Initial immune complex elimination was faster in C4 deficient than in C4-supplemented and normal guinea pigs. Thus classical pathway function appeared to be necessary for the normal processing, transport and elimination of TT-anti-TT complexes.

摘要

补体及其在红细胞上的受体似乎在清除猴子体内的大型免疫复合物（IC）过程中发挥生理作用，类似的系统可能也在人类体内发挥作用。在此，我们定义了一种适用于临床研究的安全IC模型。在抗体大量过剩的情况下制备了可溶性破伤风类毒素（TT）-人抗TT（IgG）抗体复合物。复合物的大小约为45 S。当在正常人血清中孵育时，50%的IC大小进一步增加，但仍保持可溶状态，并在体外迅速与人红细胞结合。这种结合显示需要完整的经典途径功能。当注射到正常豚鼠体内时，相当比例的IC立即与血细胞（主要是血小板）结合。在C4缺陷的豚鼠中未发生IC与血小板的结合，但当补充C4时这种结合得以恢复。最初的免疫复合物清除在C4缺陷的豚鼠中比在补充C4的豚鼠和正常豚鼠中更快。因此，经典途径功能似乎对于TT-抗TT复合物的正常处理、运输和清除是必要的。

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The kinetics of [3H]-dsDNA/anti-DNA immune complex formation, binding by red blood cells, and release into serum: effect of DNA molecular weight and conditions of antibody excess.[3H] -双链DNA/抗DNA免疫复合物形成、红细胞结合及释放至血清中的动力学：DNA分子量及抗体过量条件的影响

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Defective immune-adherence (C3b) receptor on erythrocytes from patients with systemic lupus erythematosus.系统性红斑狼疮患者红细胞上有缺陷的免疫黏附（C3b）受体。

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