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A microbial amino-acid-conjugated bile acid, tryptophan-cholic acid, improves glucose homeostasis via the orphan receptor MRGPRE

Jun Lin, Qixing Nie, Jie Cheng, Ya-Ni Zhong, Tianyao Zhang, Xiuying Zhang, Xiaoyan Ge, Yong Ding, Canyang Niu, Yuhua Gao, Kai Wang, Mingxin Gao, Xuemei Wang, Weixuan Chen, Chuyu Yun, Chuan Ye, Jinkun Xu, Weike Shaoyong, Lijun Zhang, Pan Shang, Xi Luo, Zhiwei Zhang, Xin Zheng, Xue-Ying Sha, Jinxin Zhang, Shaoping Nie, Xuguang Zhang, Fazheng Ren, Huiying Liu, Erdan Dong, Xiao Yu, Linong Ji, Yanli Pang, Jin‐Peng Sun, Changtao Jiang

2025Cell46 citationsDOI

Topics & Concepts

BiologyCholic acidBile acidOrphan receptorTryptophanGlucose homeostasisHomeostasisBiochemistryG protein-coupled bile acid receptorReceptorAmino acidEndocrinologyGeneInsulinTranscription factorInsulin resistanceDrug Transport and Resistance MechanismsPancreatic function and diabetesLiver Disease Diagnosis and Treatment
A microbial amino-acid-conjugated bile acid, tryptophan-cholic acid, improves glucose homeostasis via the orphan receptor MRGPRE | Litcius