CD98与CD147在病毒诱导的细胞融合和破骨细胞形成调控中的功能相互作用。

The functional interaction between CD98 and CD147 in regulation of virus-induced cell fusion and osteoclast formation.

作者信息

Mori Kouki, Nishimura Makoto, Tsurudome Masato, Ito Morihiro, Nishio Machiko, Kawano Mitsuo, Kozuka Yuuji, Yamashita Yasufumi, Komada Hiroshi, Uchida Atsumasa, Ito Yasuhiko

机构信息

Department of Microbiology, Mie University School of Medicine, 2-174 Edobashi, Tsu-Shi, 514-8507 Mie Prefecture, Japan.

出版信息

Med Microbiol Immunol. 2004 Nov;193(4):155-62. doi: 10.1007/s00430-003-0191-0. Epub 2003 Aug 19.

DOI:10.1007/s00430-003-0191-0

PMID:12925876

Abstract

Membrane fusion is an important event in the functioning of a living organism. Life starts as a sperm fuses with the membrane of an egg, leading to its fertilization. Membrane fusion is also required for myogenesis, osteogenesis and placenta formation. Multinucleated giant cells originating from monocytes-macrophages are associated with granulomatous lesions formed in response to foreign bodies, viruses, and bacteria. The CD4 molecule acts as a receptor for HIV. The major virus envelope glycoprotein, gp120, attaches to CD4 molecules expressed on the host cell surface. After binding to CD4 on the target cells, HIV is internalized via direct, pH-independent fusion of the viral and cell membranes. However, attachment of HIV to CD4 on the target cells is not sufficient for fusion. Interaction of gp160-expressing cells with neighboring cells bearing surface CD4 molecules is also required for syncytium formation. Syncytium formation and subsequent generalized cell fusion have been reported as potentially important mechanisms of virus-induced cytotoxic effects. Some antibodies against CD98/FRP-1 suppressed virus-induced cell fusion and CD98-mediated cell fusion of monocytes, indicating that CD98/FRP-1 molecules are able to regulate cell fusion. In this study, the functional interaction between CD98 and CD147 was investigated. Three kinds (Ab1, 2, and 3) of anti-CD147 and three kinds of anti-CD98 antibodies were used. Ab1 suppressed CD98-mediated cell fusion, but showed no effect on cell aggregation of Cd(+)U2ME-7 cells, U937-2 cells expressing HIV gp160. On the other hand, Ab2 enhanced the CD98-mediated cell fusion. Ab1 showed suppressive effect at early stage and Ab2 showed enhancing effect at later stage. Ab2 and 3 suppressed the spontaneous cell agglutination and cell fusion of Cd(+)JME-2 cells, Jurkat cells expressing HIV gp160. Ab2 suppressed CD98-mediated cell fusion, but showed no effect on cell aggregation of Cd(+)JME-2 cells. Ab2 cancelled suppression of cell fusion induced by suppressive antibody against CD98. Ab2 and 3 also suppressed CD98-mediated cell fusion of monocytes. This study indicates the functional interaction between CD98 and CD147 in the regulation of cell fusion.

摘要

膜融合是生物体功能中的一个重要事件。生命始于精子与卵子膜融合，从而导致卵子受精。膜融合在肌生成、骨生成和胎盘形成过程中也必不可少。源自单核细胞 - 巨噬细胞的多核巨细胞与针对异物、病毒和细菌形成的肉芽肿性病变相关。CD4分子作为HIV的受体。主要的病毒包膜糖蛋白gp120附着于宿主细胞表面表达的CD4分子。在与靶细胞上的CD4结合后，HIV通过病毒膜与细胞膜的直接、pH非依赖性融合而内化。然而，HIV与靶细胞上的CD4结合并不足以引发融合。表达gp160的细胞与带有表面CD4分子的相邻细胞之间的相互作用对于多核体形成也是必需的。多核体形成以及随后的广泛细胞融合已被报道为病毒诱导细胞毒性作用的潜在重要机制。一些针对CD98/FRP-1的抗体可抑制病毒诱导的细胞融合以及单核细胞的CD98介导的细胞融合，这表明CD98/FRP-1分子能够调节细胞融合。在本研究中，对CD98与CD147之间的功能相互作用进行了研究。使用了三种（Ab1、2和3）抗CD147抗体和三种抗CD98抗体。Ab1抑制CD98介导的细胞融合，但对表达HIV gp160的Cd(+)U2ME-7细胞、U937-2细胞的细胞聚集没有影响。另一方面，Ab2增强了CD98介导的细胞融合。Ab1在早期显示出抑制作用，Ab2在后期显示出增强作用。Ab2和3抑制了表达HIV gp160的Cd(+)JME-2细胞、Jurkat细胞的自发细胞凝集和细胞融合。Ab2抑制CD98介导的细胞融合，但对Cd(+)JME-2细胞的细胞聚集没有影响。Ab2消除了针对CD98的抑制性抗体诱导的细胞融合抑制作用。Ab2和3也抑制了单核细胞的CD98介导的细胞融合。本研究表明CD98与CD147在调节细胞融合方面存在功能相互作用。

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The functional interaction between CD98 and CD147 in regulation of virus-induced cell fusion and osteoclast formation.CD98与CD147在病毒诱导的细胞融合和破骨细胞形成调控中的功能相互作用。

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CD98与CD147在病毒诱导的细胞融合和破骨细胞形成调控中的功能相互作用。

The functional interaction between CD98 and CD147 in regulation of virus-induced cell fusion and osteoclast formation.

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