Akkermansia muciniphila –derived L-norleucine modulates FABP1-dependent fatty acid transport

脂肪酸 生物化学 某种肠道细菌 化学 脂肪酸结合蛋白 代谢物 脂肪生成 生物 运输机 花生四烯酸 肠道菌群 脂肪细胞蛋白2 新陈代谢 脂滴 脂肪酸合成 甾醇调节元件结合蛋白 脂肪酸代谢 游离脂肪酸受体 脂质代谢 能量稳态 脂肪肝 长链脂肪酸 磷脂 多不饱和脂肪酸
作者
J R Li,Zhengcai Ma,Jinyin Zhang,Chunyong Sun,Huimin Wu,Xiaoduo Li,Zheng Li,Huiqing Wang,Yubin Yang,Lianchun Shang,Zhipeng Yang,Jianyu Zhu,Jifei Liu,Rakia Manzoor,Li Tang,X Z Li,Xiaoli Ye,Hang Ma,Xiaoli Ye,Hang Ma
出处
期刊:Proceedings of the National Academy of Sciences of the United States of America [National Academy of Sciences]
卷期号:123 (22): e2533286123-e2533286123
标识
DOI:10.1073/pnas.2533286123
摘要

Fatty acids undergo re-esterification to form triglycerides or are directly oxidized for energy production following absorption. Fatty acid binding protein 1 (FABP1), a key transporter highly expressed in both hepatic and intestinal tissues, directs the metabolic fate of absorbed fatty acids. Although its role in facilitating fatty acid transport and lipogenesis in the liver is well established, the functional mechanisms of intestinal FABP1 remain poorly understood due to the complexity of the intestinal microenvironment. In this study, using animal models with intestinal-specific FABP1 knockout and gut microbiota depletion, we demonstrate that intestinal FABP1 directly facilitates the absorption of dietary fatty acids, and that gut microbiota regulate FABP1-mediated dietary fatty acid absorption through metabolites. Notably, the abundance of Akkermansia muciniphila exhibits an inverse correlation with FABP1-dependent obesity progression in an arachidonic acid-induced model. Supplementation with A. muciniphila markedly alleviates this obese phenotype. Through FABP1 protein-based metabolite enrichment coupled with untargeted metabolomics, we identified L-norleucine as a competitive FABP1 inhibitor despite its smaller molecular size relative to long-chain fatty acids. L-norleucine possesses a hydrophobic alkyl chain structurally analogous to fatty acids and a hydrophilic amino acid moiety, which may explain its binding to FABP1. Critically, L-norleucine constitutes a major metabolite in the gut, which may play an underappreciated role in regulating lipid homeostasis. Collectively, this study uncovers a previously unrecognized gut microbiota–FABP1 axis governing lipid homeostasis, offering therapeutic insights for metabolic disorders.
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