Silencing of Zc3h13 attenuates LPS-induced inflammatory response in macrophages via m6A-dependent stabilization of Spic mRNA
Wang Yaoyun, Zhan Chunai, Zhang Yuanyuan, Li Xinyu, Mei Long, Yang Boyang, Shao Min, Shao Wei
Journal:JOURNAL OF IMMUNOLOGY
IF:4
DOI:10.1093/jimmun/vkag034
PMID:41847860
Published:2026-03-18
research field:分子生物学免疫学炎症研究表观遗传学
Abstract
N6-methyladenosine (m6A) represents a reversible and ubiquitous posttranscriptional modification of mRNA. It plays a crucial role in immune cell development and is implicated in a range of pathological conditions. Nevertheless, the precise role of m6A in LPS-induced macrophage inflammatory responses remains elusive. In the present study, we investigated the role of the m6A writer Zc3h13 in LPS-induced liver inflammation. Macrophages, which are vital components of the immune system, play critical roles in liver injury. Our results demonstrate that Zc3h13 is highly expressed in liver macrophages during LPS-induced liver injury and is integral to the regulation of inflammatory factor expression and macrophage polarization. In vivo experiments reveal that knockdown of Zc3h13 alleviates LPS-induced liver inflammation in C57BL/6 murine models. In vitro, Zc3h13 silencing in LPS-stimulated macrophages diminishes m6A methylation, attenuates inflammation, and promotes macrophage polarization from the proinflammatory to anti-inflammatory phenotype. Furthermore, Zc3h13 silencing stabilizes Spic mRNA in an m6A-dependent manner, thereby inhibiting NF-κB pathway activation and alleviating inflammation. Notably, co-silencing of Spic and Zc3h13 reversed the inhibitory effects of Zc3h13 knockdown on inflammatory factor expression and NF-κB pathway activation. In conclusion, our study suggests that Zc3h13 silencing alleviates LPS-induced liver injury through regulation of the NF-κB pathway in macrophages.
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