Morphogenesis of the protein secretory system in PC12 cells infected with Japanese encephalitis virus.

T Hase
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引用次数: 4

Abstract

Infection of PC12 cells with Japanese encephalitis (JE) virus caused marked proliferation of the protein secretory system. Accordingly, in this study the morphogenesis of the secretory organelles, i.e., rough endoplasmic reticulum (RER) and the Golgi apparatus, in JE virus-infected PC12 cells was analyzed by electron microscopical observation. Starting 24 h postinoculation (p.i.), a structure that represented nascent RER appeared in the cytoplasm in the form of rows of ribosomes which surrounded membrane-unbounded, electron-lucent lacunae in a reticular, honey-comb pattern (reticular RER). Although the reticular RER lacked membrane components, its lacunae contained progeny virions, indicating that the rows of ribosomes synthesized the viral proteins and discharged them into the lacunae for the viral assembly. The reticular RER apparently transformed into the familiar lamellar RER during the RER morphogenesis as the lacunae coalesced to form flat cisternae and RER membrane assembled to border the cisternae. These findings indicated that the proliferating RER was the site of not only active protein synthesis but also active membrane biogenesis. The proliferating RER released a large number of membrane vesicles including virion-carrying vesicles into the cytoplasm. These vesicles congregated in the juxtanuclear region, especially around the centrioles, and fused to existing Golgi complexes for enlargement or fused among themselves to form new Golgi complexes. The present study, therefore, indicated that (a) nascent RER was formed by polysomes that arranged themselves in rows of ribosomes without participation of a preexisting membrane framework of endoplasmic reticulum (ER), (b) membrane components of RER were assembled de novo within the structure during the RER morphogenesis, and (c) RER released membrane vesicles that moved to the Golgi apparatus and contributed to the morphogenesis of the Golgi apparatus. Possible causative mechanisms involved in the proliferation of the secretory system in JE virus-infected PC12 cells are discussed.

乙型脑炎病毒感染PC12细胞蛋白分泌系统的形态发生。
乙型脑炎(乙脑)病毒感染PC12细胞可引起蛋白分泌系统的显著增殖。因此,本研究通过电镜观察分析了乙脑病毒感染PC12细胞的分泌细胞器,即粗面内质网(RER)和高尔基体的形态发生。从接种后24小时开始,细胞质中出现了一种代表新生内质网的结构,其形式是成排的核糖体,这些核糖体围绕着无膜的、电子透明的腔隙,呈网状的蜂巢状(网状内质网)。尽管网状内质网缺乏膜组分,但其腔隙中含有子代病毒粒子,这表明成排的核糖体合成病毒蛋白并将其排入腔隙中进行病毒组装。网状内质网在内质网形态发生过程中明显转变为我们所熟悉的片层内质网,因为内质网腔合并形成扁平的池池,内质网膜聚集在池池周围。这些结果表明,增殖的内质网不仅是活跃的蛋白质合成位点,也是活跃的膜生物发生位点。增殖的内质网释放大量的膜囊泡,包括携带病毒粒子的囊泡进入细胞质。这些囊泡聚集在核旁区域,特别是在中心粒周围,并与现有的高尔基复合物融合扩大或彼此融合形成新的高尔基复合物。因此,本研究表明:(a)新生的内质网是由排列成核糖体的多聚体形成的,而不参与先前存在的内质网(ER)膜框架;(b)内质网的膜组分在内质网形态发生期间在结构内重新组装;(c)内质网释放的膜泡移动到高尔基体,并有助于高尔基体的形态发生。本文讨论了乙脑病毒感染的PC12细胞分泌系统增殖的可能的致病机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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