Jay F T, Dawood M R, Friedman R M
J Gen Virol. 1983 Mar;64 Pt 3:707-12. doi: 10.1099/0022-1317-64-3-707.
The reduced rate of synthesis, maturation and degradation as well as the level of accumulation of the intracellular virus proteins in VSV-infected cells may account for the overall reduction (less than 10-fold) of progeny virion yield due to interferon (IFN); however, the deficiency of the virions proteins, G and M, which apparently caused a drastic loss of infectivity of these progeny virions (about 1000-fold) cannot be easily explained, because the concentrations of G and M proteins relative to other virus proteins were not reduced in the cell. In fact, intracellular M protein was significantly increased. Moreover, the virus proteins in IFN-treated and control cells were synthesized and accumulated in large excess of the amount incorporated into the released virions. The reduction in the intracellular activity of GlcNac-P-P-Dol transferase did not appear to play a direct role in the antiviral mechanism in this system. Our results, however, do suggest that the deficiency of G and M proteins in the virion is related to specific inhibition of the incorporation of either or both of these proteins in the virus assembly process.
在水泡性口炎病毒(VSV)感染的细胞中,病毒蛋白合成、成熟和降解速率的降低以及细胞内病毒蛋白的积累水平,可能是干扰素(IFN)导致子代病毒粒子产量总体降低(不到10倍)的原因;然而,病毒粒子蛋白G和M的缺乏,显然导致这些子代病毒粒子的感染性大幅丧失(约1000倍),这一点难以轻易解释,因为相对于其他病毒蛋白,细胞中G和M蛋白的浓度并未降低。事实上,细胞内M蛋白显著增加。此外,经干扰素处理的细胞和对照细胞中的病毒蛋白合成并积累的量,大大超过了整合到释放的病毒粒子中的量。N-乙酰葡糖胺-焦磷酸-多萜醇转移酶的细胞内活性降低,在该系统的抗病毒机制中似乎并未发挥直接作用。然而,我们的结果确实表明,病毒粒子中G和M蛋白的缺乏与在病毒装配过程中这两种蛋白中一种或两种的整合受到特异性抑制有关。
