生物
DNA修复
启动(农业)
细胞生物学
DNA损伤
表观遗传学
癌症研究
转录因子
伴侣(临床)
治疗窗口
组蛋白
抄写(语言学)
DNA
肠道菌群
微生物群
丝氨酸
作者
Jiancheng He,Jiapeng Bao,Shukang Deng,Weijie Zang,Haoming Yan,Zihao Zhao,Guangze Zhang,Ruiqing Liu,J Chen,Yilin Hu,Wanjiang Xue
标识
DOI:10.1002/advs.202521445
摘要
Radiation-induced enteritis (RIE) is a severe, dose-limiting toxicity of cancer radiotherapy lacking mechanism-based therapies. While the gut microbiome regulates radiation injury, harnessing it therapeutically remains challenging. Here, we show that the natural product β-elemene protects against RIE through a synergistic mechanism coordinating host and microbial responses. β-elemene directly rescues the radiation-disrupted interaction between the lactate transporter MCT1 and its chaperone CD147 in intestinal epithelial cells, priming them for enhanced lactate uptake. Concurrently, β-elemene selectively enriches for Lactobacillus gasseri, increasing intestinal lactate production. The convergence of host priming and elevated lactate availability triggers a metabo-epigenetic cascade. Specifically, lactate drives the lactylation of the chromatin-associated protein RBBP4, which in turn recruits EP300 to activate the transcription of essential DNA damage repair genes. We further identify EP300 as a lactyl-transferase, establishing a self-amplifying positive feedback loop that robustly enhances the repair signal. Our findings delineate a complete drug-microbe-metabolite-epigenome axis, establishing a 'prime-and-fuel' therapeutic strategy where a single agent orchestrates inter-kingdom communication to promote tissue regeneration.
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