The ATPase ATP6V1A facilitates rabies virus replication by promoting virion uncoating and interacting with the viral matrix protein

Xing Liu,Lei Shuai,Dongming Zhao,Zilong Wang,Lulu Wang,Xijun Wang,Jinliang Wang,Zhigao Bu,Jinying Ge,Zhiyuan Wen,Fang Li,Jiwen Zhang

doi:10.1074/jbc.ra120.014190

Abstract

Rabies virus (RABV) matrix protein (M) plays crucial roles in viral transcription, replication, assembly, and budding; however, its function during the early stage of virus replication remains unknown. Here, we mapped the protein interactome between RABV M and human host factors using a proteomic approach, finding a link to the V-type proton ATPase catalytic subunit A (ATP6V1A), which is located in the endosomes where RABV first enters. By downregulating or upregulating ATP6V1A expression in HEK293T cells, we found that ATP6V1A facilitated RABV replication. We further found that ATP6V1A was involved in the dissociation of incoming viral M proteins during viral uncoating. Coimmunoprecipitation demonstrated that M interacted with the full length or middle domain of ATP6V1A, which was dependent on the lysine residue at position 256 and the glutamic acid residue at position 279. RABV growth and uncoating in ATP6V1A-depleted cells was restored by trans-complementation with the full length or interaction domain of ATP6V1A. Moreover, stably overexpressed ATP6V1A enhanced RABV growth in Vero cells, which are used for the production of rabies vaccine. Our findings identify a new partner for RABV M proteins and establish a new role of ATP6V1A by promoting virion uncoating during RABV replication.

Highlights

Rabies, which is caused by rabies virus (RABV), is an important and devastating infectious disease with an almost 100% mortality rate [1]
Mass spectrometry analysis of host proteins coimmunoprecipitated with RABV M protein To explore the role of the matrix protein in RABV infection of host cells, we looked for host proteins that interact with the RABV M protein
We identified a total of 2672 host proteins that coimmunoprecipitated with the M protein; 492 proteins coimmunoprecipitated with both M-NF and M-CF, 1761 proteins coimmunoprecipitated with M-NF only, and 419 proteins coimmunoprecipitated with M-CF only

Summary

Introduction

Rabies, which is caused by rabies virus (RABV), is an important and devastating infectious disease with an almost 100% mortality rate [1]. The RABV P protein in cell supernatants and lysates was detected by Western blotting at different times post infection.

Results

Conclusion