自噬
泛素
生物
泛素连接酶
病毒
病毒学
黄病毒
细胞生物学
病毒复制
日本脑炎
核糖核酸
发病机制
病毒病机
下调和上调
RNA病毒
寄主因子
APOBEC3G公司
病毒蛋白
细胞培养
RNA干扰
病毒性脑炎
微小病毒
程序性细胞死亡
HEK 293细胞
病毒生命周期
蛋白质降解
寄主(生物学)
维罗细胞
基因敲除
作者
Jian Du,Chunwei LI,Jiyuan Luo,H Steve Zhang,Jinyan Zhang,Suya Wang,Huanchun Chen,Hongli Xu,X Y Li,Ping Qian
摘要
ABSTRACT Japanese encephalitis virus (JEV) is a neurotropic flavivirus that causes a substantial threat to human health and livestock; however, the epitranscriptomic mechanisms that support its replication remain poorly defined. Here, we identify a proviral host factor C 2 H 2 zinc‐finger protein ZNF33B that promotes JEV infection through coupling N 6 ‐methyladenosine (m 6 A) RNA modification to autophagy regulation. Mechanistically, ZNF33B recruits METTL14 to stabilize the METTL3‐METTL14 methyltransferase complex, thereby increasing global m 6 A deposition. Multi‐omics analyses reveal that ZNF33B selectively binds m 6 A‐modified sites within the antiviral transcript Trim25 (c.1567 and c.1669 bp) to accelerate its decay. We further demonstrate that TRIM25 functions as an E3 ubiquitin ligase that catalyzes K48‐linked ubiquitination of ATG7 at lysines 389 and 423, leading to its proteasomal degradation and ultimately suppressing autophagic flux. In contrast, ZNF33B‐mediated Trim25 degradation counteracts its inhibitory effect on autophagy, creating a favorable environment for viral replication. In vivo, adeno‐associated virus (AAV)‐mediated ZNF33B delivery increases mouse brain m 6 A levels, decreases TRIM25 expression, elevates ATG7 abundance, exacerbates JEV‐induced neuropathology, and accelerates mouse mortality. Together, these findings reveal a previously uncharacterized ZNF33B‐m 6 A‐TRIM25‐autophagy axis that JEV hijacks to evade host antiviral responses, providing new insights into flaviviral pathogenesis and potential therapeutic targets.
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