生物
清脆的
寄主(生物学)
宿主因子
计算生物学
遗传筛选
基因
遗传学
调解人
实验进化
细胞
光遗传学
主机响应
细胞内寄生虫
内体
作者
Sehee Yun,Seoyeon Kim,Seong-Gyu Kim,Minsoo Noh,Dae-Kyum Kim,Eun-jin Lee,Hunsang Lee
标识
DOI:10.1002/advs.202515042
摘要
Abstract Salmonella enterica , a major cause of gastroenteritis and typhoid fever, hijacks host machinery to invade cells, and replicate within a specialized niche. While some host factors are known, a comprehensive, temporally‐resolved understanding of the host‐pathogen interface has been hindered by a lack of suitable genome‐wide methodologies. To address this, a parallel CRISPR screening platform is developed to identify host determinants for distinct infection stages. An invasion screen captured factors for bacterial entry, while a fitness screen identified factors governing long‐term survival. The screens reveal a temporal switch in host dependency, from endosomal trafficking in early infection to cell cycle and DNA damage response pathways governing host cell fitness in long‐term infection. Notably, the approach uncovers two novel host factors with stage‐specific roles, SORL1 as a mediator of bacterial invasion and ZFYVE19 as a factor supporting intracellular proliferation. Genetic disruption of SORL1 or ZFYVE19 validate these roles, leading to impaired invasion or replication, respectively. Importantly, antibody‐mediated blockade of SORL1 effectively prevented Salmonella entry, highlighting it as a novel host‐directed therapeutic target. Together, the screening strategy provides a powerful framework for the temporal dissection of host‐pathogen interactions, revealing novel biology and promising therapeutic targets.
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