免疫系统
生物
表观遗传学
效应器
翻译(生物学)
计算生物学
非编码RNA
核糖核酸
神经科学
免疫
长非编码RNA
细胞生物学
小RNA
免疫调节
生物信息学
串扰
免疫学
T细胞
细胞
细胞代谢
神经免疫学
RNA干扰
自身免疫
平衡
系统生物学
免疫耐受
微生物群
全生物
后生
肠道菌群
获得性免疫系统
肠-脑轴
先天免疫系统
小核仁RNA
信号转导
遗传学
基因表达调控
作者
Bonan Chen,Chen Gg,Xieyuan Leng,Qianfan Li,Wenhao Wu,Wenqiu Wu,Zixuan Liu,Zilan Zhong,Xiaohong Zheng,Wei Kang,Fazheng Ren,Yigan Zhang,Juan Chen
标识
DOI:10.1002/advs.202519949
摘要
Immune homeostasis is indispensable for preserving organismal integrity, orchestrated through complex molecular networks encompassing immune cell dynamics, microbial cues, and epigenetic regulation. Among these, the gut microbiota-non-coding RNA (ncRNA) axis has recently garnered substantial attention as a multifaceted modulator of host immunity. Emerging evidence indicates that microbial-derived metabolites can reprogram ncRNA expression, thereby modulating immune cell differentiation, activation, and effector responses. Notably, dysregulation of this axis has been mechanistically implicated in the etiology of diverse immune-related pathologies, including colorectal cancer, sepsis, atherosclerosis, and neuroimmune conditions. Particularly intriguing is its translational potential: both microbial signatures and ncRNA profiles are being leveraged as diagnostic biomarkers and actionable targets for immune modulation. In this review, we delineate the molecular frameworks underpinning the gut microbiota-ncRNA-immune and explore how its perturbation contributes to pathogenesis. We further highlight emerging therapeutic strategies targeting this axis, underscoring its significance in precision immunology and host-microbiota co-regulation.
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