Bhattacharya Jayanta, Repik Alexander, Clapham Paul R
Program in Molecular Medicine, Center for AIDS Research, University of Massachusetts Medical School, Worcester, MA 01605, USA.
J Virol. 2006 Jun;80(11):5292-300. doi: 10.1128/JVI.01469-05.
Assembly of the human immunodeficiency virus type 1 (HIV-1) envelope glycoprotein on budding virus particles is important for efficient infection of target cells. In infected cells, lipid rafts have been proposed to form platforms for virus assembly and budding. Gag precursors partly associate with detergent-resistant membranes (DRMs) that are believed to represent lipid rafts. The cytoplasmic domain of the envelope gp41 usually carries palmitate groups that were also reported to confer DRM association. Gag precursors confer budding and carry envelope glycoproteins onto virions via specific Gag-envelope interactions. Thus, specific mutations in both the matrix domain of the Gag precursor and gp41 cytoplasmic domain abrogate envelope incorporation onto virions. Here, we show that HIV-1 envelope association with DRMs is directly influenced by its interaction with Gag. Thus, in the absence of Gag, envelope fails to associate with DRMs. A mutation in the p17 matrix (L30E) domain in Gag (Gag L30E) that abrogates envelope incorporation onto virions also eliminated envelope association with DRMs in 293T cells and in the T-cell line, MOLT 4. These observations are consistent with a requirement for an Env-Gag interaction for raft association and subsequent assembly onto virions. In addition to this observation, we found that mutations in the gp41 cytoplasmic domain that abrogated envelope incorporation onto virions and impaired infectivity of cell-free virus also eliminated envelope association with DRMs. On the basis of these observations, we propose that Gag-envelope interaction is essential for efficient envelope association with DRMs, which in turn is essential for envelope budding and assembly onto virus particles.
人类免疫缺陷病毒1型(HIV-1)包膜糖蛋白在出芽病毒颗粒上的组装对于有效感染靶细胞至关重要。在受感染的细胞中,脂筏被认为是病毒组装和出芽的平台。Gag前体部分与被认为代表脂筏的耐去污剂膜(DRM)相关联。包膜糖蛋白gp41的胞质结构域通常带有棕榈酸基团,据报道这些基团也赋予了与DRM的关联。Gag前体赋予出芽能力,并通过特定的Gag-包膜相互作用将包膜糖蛋白携带到病毒粒子上。因此,Gag前体的基质结构域和gp41胞质结构域中的特定突变会消除包膜糖蛋白整合到病毒粒子上。在这里,我们表明HIV-1包膜与DRM的关联直接受到其与Gag相互作用的影响。因此,在没有Gag的情况下,包膜无法与DRM相关联。Gag中p17基质(L30E)结构域的突变(Gag L30E)消除了包膜糖蛋白整合到病毒粒子上,也消除了293T细胞和T细胞系MOLT 4中包膜与DRM的关联。这些观察结果与脂筏关联以及随后组装到病毒粒子上需要Env-Gag相互作用一致。除了这一观察结果外,我们还发现,gp41胞质结构域中的突变消除了包膜糖蛋白整合到病毒粒子上并损害了无细胞病毒的感染性,同时也消除了包膜与DRM的关联。基于这些观察结果,我们提出Gag-包膜相互作用对于包膜与DRM的有效关联至关重要,而这反过来对于包膜出芽和组装到病毒粒子上也至关重要。