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巨噬细胞对免疫复合物的吞噬作用。巨噬细胞补体（C3）受体位点和免疫球蛋白（IgG）受体位点的不同作用。

Phagocytosis of immune complexes by macrophages. Different roles of the macrophage receptor sites for complement (C3) and for immunoglobulin (IgG).

作者信息

Mantovani B, Rabinovitch M, Nussenzweig V

出版信息

J Exp Med. 1972 Apr 1;135(4):780-92. doi: 10.1084/jem.135.4.780.

DOI:10.1084/jem.135.4.780

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2139152/

Abstract

Sheep red cells (E) sensitized with IgG antibody (EA) or with antibody and complement (EAC) interact in vitro with mouse peritoneal macrophage monolayers. The role of IgG and of C3 in the attachment and ingestion of the erythrocytes was examined by means of quantitative technique utilizing (51)Cr-labeled E. Controlled osmotic lysis permitted the separate measurement of the radioactivity associated with bound or with ingested E. IgG-(125)I was used to estimate the number of IgG molecules bound per E as a function of the IgG concentration. Control experiments showed that iodination did not influence the extent of binding of IgG to E and that the binding of IgG prepared from immune serum could be essentially ascribed to its anti-E antibody content. Only between 10(3) and 10(4) rabbit anti-E IgG molecules per erythrocyte were needed for detectable attachment and ingestion of EA (a maximum number of 6 x 10(5) IgG antibody molecules could be accomodated on one erythrocyte). Evidence was obtained that C3 is primarily involved in particle attachment, whereas only IgG is able to markedly promote the ingestion of particles attached to macrophages: (a) Addition of complement to the EA substantially increased the binding to the macrophages, whereas ingestion was increased to a smaller extent. Both binding and ingestion of EAC were markedly inhibited by papain fragments of IgG obtained from a rabbit antiserum to mouse C3. (b) Low doses (2 microg/ml) of papain fragments of IgG from a rabbit antiserum to mouse IgG markedly reduced the ingestion of EAC, whereas attachment of EAC to macrophages was inhibited to a much smaller degree. The possible relevance of these findings for the in vivo fate of particulate immune complexes as they interact with macrophages is discussed. It is suggested that in the primary immune response, when the complexes are predominantly in the form of EA (IgM) or EA (IgM) C3, they would tend to remain on the surface of the macrophages and thus be in a position to stimulate immunocompetent cells. In the secondary response, when EA (IgG) or EA (IgG) C3 predominate, the complexes would tend to be more rapidly interiorized and degraded by the mononuclear phagocytes,

摘要

用IgG抗体（EA）或抗体与补体（EAC）致敏的绵羊红细胞（E）在体外与小鼠腹腔巨噬细胞单层相互作用。利用（51）Cr标记的E，通过定量技术研究了IgG和C3在红细胞附着和摄取中的作用。可控的渗透裂解允许分别测量与结合或摄取的E相关的放射性。IgG-（125）I用于估计每个E结合的IgG分子数作为IgG浓度的函数。对照实验表明，碘化不影响IgG与E的结合程度，并且从免疫血清制备的IgG的结合基本上可归因于其抗E抗体含量。每个红细胞仅需要10（3）至10（4）个兔抗E IgG分子即可检测到EA的附着和摄取（一个红细胞上最多可容纳6×10（5）个IgG抗体分子）。有证据表明，C3主要参与颗粒附着，而只有IgG能够显著促进附着于巨噬细胞的颗粒的摄取：（a）向EA中添加补体可显著增加与巨噬细胞的结合，而摄取增加的程度较小。从兔抗小鼠C3血清获得的IgG木瓜蛋白酶片段显著抑制了EAC的结合和摄取。（b）来自兔抗小鼠IgG血清的低剂量（2微克/毫升）IgG木瓜蛋白酶片段显著降低了EAC的摄取，而EAC与巨噬细胞的附着受到的抑制程度要小得多。讨论了这些发现与颗粒免疫复合物在体内与巨噬细胞相互作用时的命运的可能相关性。有人提出，在初次免疫反应中，当复合物主要以EA（IgM）或EA（IgM）C3的形式存在时，它们倾向于保留在巨噬细胞表面，从而能够刺激免疫活性细胞。在二次反应中，当EA（IgG）或EA（IgG）C3占主导时，复合物倾向于更快地被单核吞噬细胞内化和降解。