Reovirus uses macropinocytosis-mediated entry and fast axonal transport to infect neurons

轴浆运输 内吞循环 生物 内吞作用 细胞生物学 胞饮病 内体 跨细胞 微管 嗜神经病毒 网格蛋白 动力蛋白 囊泡转运蛋白 病毒进入 神经元 病毒复制 病毒学 小泡 神经科学 细胞 病毒 细胞内 遗传学
作者
Pavithra Aravamudhan,Krishnan Raghunathan,Jennifer L. Konopka‐Anstadt,Amrita Pathak,Danica M. Sutherland,Bruce Carter,Terence S. Dermody
出处
期刊:PLOS Pathogens [Public Library of Science]
卷期号:16 (2): e1008380-e1008380 被引量:35
标识
DOI:10.1371/journal.ppat.1008380
摘要

Several barriers protect the central nervous system (CNS) from pathogen invasion. Yet viral infections of the CNS are common and often debilitating. Understanding how neurotropic viruses co-opt host machinery to overcome challenges to neuronal entry and transmission is important to combat these infections. Neurotropic reovirus disseminates through neural routes and invades the CNS to cause lethal encephalitis in newborn animals. To define mechanisms of reovirus neuronal entry and directional transport, we used primary neuron cultures, which reproduce in vivo infection patterns displayed by different reovirus serotypes. Treatment of neurons with small-molecule inhibitors of different endocytic uptake pathways allowed us to discover that the cellular machinery mediating macropinocytosis is required for reovirus neuronal entry. This mechanism of reovirus entry differs from clathrin-mediated endocytosis, which is used by reovirus to invade non-neuronal cells. Analysis of reovirus transport and release from isolated soma or axonal termini of neurons cultivated in microfluidic devices indicates that reovirus is capable of retrograde but only limited anterograde neuronal transmission. The dynamics of retrograde reovirus movement are consistent with fast axonal transport coordinated by dynein along microtubules. Further analysis of viral transport revealed that multiple virions are transported together in axons within non-acidified vesicles. Reovirus-containing vesicles acidify after reaching the soma, where disassembly of virions and release of the viral core into the cytoplasm initiates replication. These results define mechanisms of reovirus neuronal entry and transport and establish a foundation to identify common host factors used by neuroinvasive viruses. Furthermore, our findings emphasize consideration of cell type-specific entry mechanisms in the tailored design of neurotropic viruses as tracers, oncolytic agents, and delivery vectors.
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