Maturation of HIV envelope glycoprotein precursors by cellular endoproteases

Maxime Moulard , Etienne Decroly
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引用次数: 172

Abstract

The entry of enveloped viruses into its host cells is a crucial step for the propagation of viral infection. The envelope glycoprotein complex controls viral tropism and promotes the membrane fusion process. The surface glycoproteins of enveloped viruses are synthesized as inactive precursors and sorted through the constitutive secretory pathway of the infected cells. To be infectious, most of the viruses require viral envelope glycoprotein maturation by host cell endoproteases. In spite of the strong variability of primary sequences observed within different viral envelope glycoproteins, the endoproteolytical cleavage occurs mainly in a highly conserved domain at the carboxy terminus of the basic consensus sequence (Arg-X-Lys/Arg-Arg↓). The same consensus sequence is recognized by the kexin/subtilisin-like serine proteinases (so called convertases) in many cellular substrates such as prohormones, proprotein of receptors, plasma proteins, growth factors and bacterial toxins. Therefore, several groups of investigators have evaluated the implication of convertases in viral envelope glycoprotein cleavage. Using the vaccinia virus overexpression system, furin was first shown to mediate the proteolytic maturation of both human immunodeficiency virus (HIV-1) and influenza virus envelope glycoproteins. In vitro studies demonstrated that purified convertases directly and specifically cleave viral envelope glycoproteins. Although these studies suggested the participation of several enzymes belonging to the convertases family, recent data suggest that other protease families may also participate in the HIV envelope glycoprotein processing. Their role in the physiological maturation process is still hypothetical and the molecular mechanism of the cleavage is not well documented. Crystallization of the hemagglutinin precursor (HA0) of influenza virus allowed further understanding of the molecular interaction between viral precursors and the cellular endoproteases. Furthermore, relationships between differential pathogenicity of influenza strains and their susceptibility to cleavage are molecularly funded. Here we review the most recent data and recent insights demonstrating the crucial role played by this activation step in virus infectivity. We discuss the cellular endoproteases that are implicated in HIV gp160 endoproteolytical maturation into gp120 and gp41.

细胞内蛋白酶对HIV包膜糖蛋白前体的成熟作用
包膜病毒进入宿主细胞是病毒感染传播的关键步骤。包膜糖蛋白复合物控制病毒的趋向性并促进膜融合过程。包膜病毒的表面糖蛋白作为无活性前体合成,并通过感染细胞的组成分泌途径进行分类。为了具有传染性,大多数病毒需要宿主细胞内蛋白酶使病毒包膜糖蛋白成熟。尽管在不同的病毒包膜糖蛋白中观察到的初级序列具有很强的变异性,但蛋白内溶裂解主要发生在基本一致序列(Arg-X-Lys/Arg-Arg↓)的羧基端高度保守的结构域。在许多细胞底物中,如激素原、受体蛋白原、血浆蛋白、生长因子和细菌毒素,都能识别相同的一致序列。因此,几组研究人员已经评估了转化酶在病毒包膜糖蛋白切割中的意义。利用牛痘病毒过表达系统,furin首次被证明介导人类免疫缺陷病毒(HIV-1)和流感病毒包膜糖蛋白的蛋白水解成熟。体外研究表明,纯化的转化酶直接和特异性地切割病毒包膜糖蛋白。虽然这些研究表明有几种属于转化酶家族的酶参与,但最近的数据表明,其他蛋白酶家族也可能参与HIV包膜糖蛋白的加工。它们在生理成熟过程中的作用仍然是假设的,卵裂的分子机制也没有很好的文献记载。流感病毒血凝素前体(HA0)的结晶可以进一步了解病毒前体与细胞内蛋白酶之间的分子相互作用。此外,流感毒株的不同致病性与其对裂解的易感性之间的关系是分子资助的。在这里,我们回顾了最新的数据和最新的见解,证明了这一激活步骤在病毒感染性中所起的关键作用。我们讨论了参与HIV gp160内化成熟为gp120和gp41的细胞内化蛋白酶。
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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