Central anorexigenic actions of bile acids are mediated by TGR5

产矿性 G蛋白偶联胆汁酸受体 受体 生物 神经肽 内科学 内分泌学 细胞生物学 调节器 神经肽Y受体 神经科学 生物化学 医学 基因
作者
Alessia Perino,Laura A. Velázquez‐Villegas,Nadia Bresciani,Yu Sun,Qingyao Huang,Valérie S. Fénelon,Ashley Castellanos-Jankiewicz,Philippe Zizzari,Giuseppe Bruschetta,Sungho Jin,Aiste Baleisyte,Antimo Gioiello,Roberto Pellicciari,Julijana Ivanišević,Bernard L. Schneider,Sabrina Diano,Daniela Cota,Kristina Schoonjans
出处
期刊:Nature metabolism [Nature Portfolio]
卷期号:3 (5): 595-603 被引量:135
标识
DOI:10.1038/s42255-021-00398-4
摘要

Bile acids (BAs) are signalling molecules that mediate various cellular responses in both physiological and pathological processes. Several studies report that BAs can be detected in the brain1, yet their physiological role in the central nervous system is still largely unknown. Here we show that postprandial BAs can reach the brain and activate a negative-feedback loop controlling satiety in response to physiological feeding via TGR5, a G-protein-coupled receptor activated by multiple conjugated and unconjugated BAs2 and an established regulator of peripheral metabolism3–8. Notably, peripheral or central administration of a BA mix or a TGR5-specific BA mimetic (INT-777) exerted an anorexigenic effect in wild-type mice, while whole-body, neuron-specific or agouti-related peptide neuronal TGR5 deletion caused a significant increase in food intake. Accordingly, orexigenic peptide expression and secretion were reduced after short-term TGR5 activation. In vitro studies demonstrated that activation of the Rho–ROCK–actin-remodelling pathway decreases orexigenic agouti-related peptide/neuropeptide Y (AgRP/NPY) release in a TGR5-dependent manner. Taken together, these data identify a signalling cascade by which BAs exert acute effects at the transition between fasting and feeding and prime the switch towards satiety, unveiling a previously unrecognized role of physiological feedback mediated by BAs in the central nervous system. Bile acids are shown to enter the brain and regulate short-term reductions in food intake after a meal by inhibiting neuropeptide release from agouti-related peptide/neuropeptide Y neurons.
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