Institut für Virologie, Philipps-Universität Marburg, Hans Meerwein-Str. 2, 35043 Marburg, Germany.
Cell Microbiol. 2012 Feb;14(2):182-97. doi: 10.1111/j.1462-5822.2011.01709.x. Epub 2011 Nov 10.
Marburg virus (MARV) matrix protein VP40 plays a key role in virus assembly, recruiting nucleocapsids and the surface protein GP to filopodia, the sites of viral budding. In addition, VP40 is the only MARV protein able to induce the release of filamentous virus-like particles (VLPs) indicating its function in MARV budding. Here, we demonstrated that VP40 is phosphorylated and that tyrosine residues at positions 7, 10, 13 and 19 represent major phosphorylation acceptor sites. Mutagenesis of these tyrosine residues resulted in expression of a non-phosphorylatable form of VP40 (VP40(mut) ). VP40(mut) was able to bind to cellular membranes, produce filamentous VLPs, and inhibit interferon-induced gene expression similarly to wild-type VP40. However, VP40(mut) was specifically impaired in its ability to recruit nucleocapsid structures into filopodia, and released infectious VLPs (iVLPs) had low infectivity. These results indicated that tyrosine phosphorylation of VP40 is important for triggering the recruitment of nucleocapsids to the viral envelope.
马尔堡病毒 (MARV) 基质蛋白 VP40 在病毒组装中发挥关键作用,将核衣壳和表面蛋白 GP 募集到丝状伪足,即病毒出芽的部位。此外,VP40 是唯一能够诱导丝状病毒样颗粒 (VLPs) 释放的 MARV 蛋白,表明其在 MARV 出芽中的作用。在这里,我们证明了 VP40 发生了磷酸化,并且位置为 7、10、13 和 19 的酪氨酸残基是主要的磷酸化接受位点。这些酪氨酸残基的突变导致表达一种不可磷酸化的 VP40 形式(VP40(mut))。VP40(mut) 能够结合细胞膜,产生丝状 VLPs,并与野生型 VP40 一样抑制干扰素诱导的基因表达。然而,VP40(mut) 特异性地丧失了将核衣壳结构募集到丝状伪足的能力,并且释放的感染性 VLPs (iVLPs) 感染性较低。这些结果表明,VP40 的酪氨酸磷酸化对于触发核衣壳向病毒包膜的募集至关重要。
