携带异源H蛋白的重组野生型和埃德蒙斯顿株麻疹病毒：H蛋白在细胞融合和宿主细胞特异性中的作用。

Recombinant wild-type and edmonston strain measles viruses bearing heterologous H proteins: role of H protein in cell fusion and host cell specificity.

作者信息

Takeuchi Kaoru, Takeda Makoto, Miyajima Naoko, Kobune Fumio, Tanabayashi Kiyoshi, Tashiro Masato

机构信息

Department of Virus Diseases and Vaccine Control, National Institute of Infectious Diseases, Musashi-Murayama, Tokyo 208-0011, Japan.

出版信息

J Virol. 2002 May;76(10):4891-900. doi: 10.1128/jvi.76.10.4891-4900.2002.

DOI:10.1128/jvi.76.10.4891-4900.2002

PMID:11967306

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC136141/

Abstract

Wild-type measles virus (MV) isolated from B95a cells has a restricted host cell specificity and hardly replicates in Vero cells, whereas the laboratory strain Edmonston (Ed) replicates in a variety of cell types including Vero cells. To investigate the role of H protein in the differential MV host cell specificity and cell fusion activity, H proteins of wild-type MV (IC-B) and Ed were coexpressed with the F protein in Vero cells. Cell-cell fusion occurred in Vero cells when Ed H protein, but not IC-B H protein, was expressed. To analyze the role of H protein in the context of viral infection, a recombinant IC-B virus bearing Ed H protein (IC/Ed-H) and a recombinant Ed virus bearing IC-B H protein (Ed/IC-H) were generated from cloned cDNAs. IC/Ed-H replicated efficiently in Vero cells and induced small syncytia in Vero cells, indicating that Ed H protein conferred replication ability in Vero cells on IC/Ed-H. On the other hand, Ed/IC-H also replicated well in Vero cells and induced small syncytia, although parental Ed induced large syncytia in Vero cells. These results indicated that an MV protein(s) other than H protein was likely involved in determining cell fusion and host cell specificity of MV in the case of our recombinants. SLAM (CDw150), a recently identified cellular receptor for wild-type MV, was not expressed in Vero cells, and a monoclonal antibody against CD46, a cellular receptor for Ed, did not block replication or syncytium formation of Ed/IC-H in Vero cells. It is therefore suggested that Ed/IC-H entered Vero cells through another cellular receptor.

摘要

从B95a细胞中分离出的野生型麻疹病毒（MV）具有受限的宿主细胞特异性，在Vero细胞中几乎不复制，而实验室毒株埃德蒙斯顿（Ed）能在包括Vero细胞在内的多种细胞类型中复制。为了研究H蛋白在MV宿主细胞特异性差异和细胞融合活性中的作用，将野生型MV（IC-B）和Ed的H蛋白与F蛋白在Vero细胞中共表达。当表达Ed H蛋白而非IC-B H蛋白时，Vero细胞中发生了细胞-细胞融合。为了分析H蛋白在病毒感染背景下的作用，从克隆的cDNA中构建了携带Ed H蛋白的重组IC-B病毒（IC/Ed-H）和携带IC-B H蛋白的重组Ed病毒（Ed/IC-H）。IC/Ed-H在Vero细胞中高效复制，并在Vero细胞中诱导形成小的多核巨细胞，这表明Ed H蛋白赋予了IC/Ed-H在Vero细胞中的复制能力。另一方面，Ed/IC-H在Vero细胞中也复制良好并诱导形成小的多核巨细胞，尽管亲本Ed在Vero细胞中诱导形成大的多核巨细胞。这些结果表明，在我们构建的重组病毒中，除H蛋白外的其他MV蛋白可能参与了MV细胞融合和宿主细胞特异性的决定。最近确定的野生型MV细胞受体信号淋巴细胞激活分子（SLAM，CDw150）在Vero细胞中不表达，而针对Ed细胞受体CD46的单克隆抗体并不能阻断Ed/IC-H在Vero细胞中的复制或多核巨细胞形成。因此，提示Ed/IC-H通过另一种细胞受体进入Vero细胞。

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