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A genome-wide CRISPR/Cas9 knockout screen identifies TMEM239 as an important host factor in facilitating African swine fever virus entry into early endosomes.PLoS Pathog.2024 Jul 18;20(7):e1012256.doi: 10.1371/journal.ppat.1012256

Dongdong Shen ,Guigen Zhang ,Xiaogang Weng ,Renqiang Liu ,Zhiheng Liu ,Xiangpeng Sheng ,Yuting Zhang ,Yan Liu ,Yanshuang Mu ,Yuanmao Zhu ,Encheng Sun ,Jiwen Zhang ,Fang Li ,Changyou Xia ,Junwei Ge ,Zhonghua Liu ,Zhigao Bu ,Dongming Zhao

PLoS Pathog.2024 Jul 18;20(7):e1012256.doi: 10.1371/journal.ppat.1012256. Online ahead of print.

Abstract

African swine fever (ASF) is a highly contagious, fatal disease of pigs caused by African swine fever virus (ASFV). The complexity of ASFV and our limited understanding of its interactions with the host have constrained the development of ASFV vaccines and antiviral strategies. To identify host factors required for ASFV replication, we developed a genome-wide CRISPR knockout (GeCKO) screen that contains 186,510 specific single guide RNAs (sgRNAs) targeting 20,580 pig genes and used genotype II ASFV to perform the GeCKO screen in wild boar lung (WSL) cells. We found that knockout of transmembrane protein 239 (TMEM239) significantly reduced ASFV replication. Further studies showed that TMEM239 interacted with the early endosomal marker Rab5A, and that TMEM239 deletion affected the co-localization of viral capsid p72 and Rab5A shortly after viral infection. An ex vivo study showed that ASFV replication was significantly reduced in TMEM239-/- peripheral blood mononuclear cells (PBMCs) from TMEM239 knockout piglets. Our study identifies a novel host factor required for ASFV replication by facilitating ASFV entry into early endosomes and provides insights for the development of ASF-resistant breeding.


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