Seyboldt C, Granzow H, Osterrieder N
Institutes of Molecular Biology, Insel Riems, D-17498, Germany.
Virology. 2000 Dec 20;278(2):477-89. doi: 10.1006/viro.2000.0664.
Equine herpesvirus 1 (EHV-1) recombinants that carry either a deletion of glycoprotein M (gM) or express mutant forms of gM were constructed. The recombinants were derived from strain Kentucky A (KyA), which also lacks genes encoding gE and gI. Plaques on RK13 cells induced by the gM-negative KyA were reduced in size by 80%, but plaque sizes were restored to wild-type levels on gM-expressing cells. Electron microscopic studies revealed a massive defect in virus release after the deletion of gM in the gE- and gI-negative KyA, which was caused by a block in secondary envelopment of virions at Golgi vesicles. Recombinant KyA expressing mutant gM with deletions of predicted transmembrane domains was generated and characterized. It was shown that mutant gM was expressed and formed dimeric and oligomeric structures. However, subcellular localization of mutant gM proteins differed from that of wild-type gM. Mutant glycoproteins were not transported to the Golgi network and consequently were not incorporated into the envelope of extracellular virions. Also, a small plaque phenotype of mutant viruses that was indistinguishable from that of the gM-negative KyA was observed. Plaque sizes of mutant viruses were restored to wild-type levels by plating onto RK13 cells constitutively expressing full-length EHV-1 gM, indicating that mutant proteins did not exert a transdominant negative effect on wild-type gM.
构建了携带糖蛋白M(gM)缺失或表达gM突变形式的马疱疹病毒1型(EHV-1)重组体。这些重组体源自肯塔基A株(KyA),该毒株也缺乏编码gE和gI的基因。gM阴性的KyA在RK13细胞上诱导产生的噬斑大小减小了80%,但在表达gM的细胞上噬斑大小恢复到了野生型水平。电子显微镜研究显示,在gE和gI阴性的KyA中缺失gM后,病毒释放存在严重缺陷,这是由病毒粒子在高尔基体囊泡处的二次包膜受阻所致。产生并鉴定了表达预测跨膜结构域缺失的突变gM的重组KyA。结果表明,突变gM得到表达并形成二聚体和寡聚体结构。然而,突变gM蛋白的亚细胞定位与野生型gM不同。突变糖蛋白未转运至高尔基体网络,因此未整合到细胞外病毒粒子的包膜中。此外,观察到突变病毒的小噬斑表型与gM阴性的KyA无法区分。通过接种到组成性表达全长EHV-1 gM的RK13细胞上,突变病毒的噬斑大小恢复到野生型水平,这表明突变蛋白对野生型gM没有发挥反式显性负效应。
