麻疹病毒基质蛋白决定上皮细胞中病毒的顶端释放和糖蛋白分选。
Measles virus matrix protein specifies apical virus release and glycoprotein sorting in epithelial cells.
作者信息
Naim H Y, Ehler E, Billeter M A
机构信息
University of Zürich, Institute of Molecular Biology, Winterthurerstrasse 190, 8057 Zürich.
出版信息
EMBO J. 2000 Jul 17;19(14):3576-85. doi: 10.1093/emboj/19.14.3576.
Abstract
In polarized epithelial cells measles virus (MV) is predominantly released at the apical cell surface, irrespective of the sorting of its two envelope glycoproteins F and H. It has been reported previously that the viral matrix (M) protein modulates the fusogenic capacity of the viral envelope glycoproteins. Here, extant MV mutants and chimeras were used to determine the role of M protein in the transport of viral glycoproteins and release of progeny virions in polarized epithelial CaCo2 cells. In the absence of M, envelope glycoproteins are sorted to the basolateral surface, suggesting that they possess intrinsic basolateral sorting signals. However, interactions of M with the glycoprotein cytoplasmic tails allow M-glycoprotein co-segregation to the apical surface, suggesting a vectorial function of M to retarget the glycoproteins for apical virion release. Whereas this may allow virus airway shedding, the intrinsic sorting of the glycoproteins to the basolateral surface may account for systemic host infection by allowing efficient cell-cell fusion.
摘要
在极化上皮细胞中,麻疹病毒(MV)主要在细胞顶端表面释放,而与其两种包膜糖蛋白F和H的分选无关。此前有报道称,病毒基质(M)蛋白可调节病毒包膜糖蛋白的融合能力。在此,利用现有的MV突变体和嵌合体来确定M蛋白在极化上皮CaCo2细胞中病毒糖蛋白运输及子代病毒粒子释放过程中的作用。在没有M的情况下,包膜糖蛋白被分选至基底外侧表面,这表明它们具有内在的基底外侧分选信号。然而,M与糖蛋白细胞质尾巴的相互作用使得M-糖蛋白共分选至顶端表面,这表明M具有将糖蛋白重新靶向用于顶端病毒粒子释放的向量功能。虽然这可能允许病毒从气道排出,但糖蛋白向基底外侧表面的内在分选可能通过允许高效的细胞间融合来解释全身性宿主感染。
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