Department of Neuroscience and Dorris Neuroscience Center, The Scripps Research Institute, San Diego, CA, USA.
The Skaggs Graduate School of Chemical and Biological Sciences, The Scripps Research Institute, San Diego, CA, USA.
Nat Commun. 2024 Aug 11;15(1):6869. doi: 10.1038/s41467-024-51077-3.
In C. elegans mechanisms by which peripheral organs relay internal state information to the nervous system remain unknown, although strong evidence suggests that such signals do exist. Here we report the discovery of a peptide of the ancestral insulin superfamily called INS-7 that functions as an enteroendocrine peptide and is secreted from specialized cells of the intestine. INS-7 secretion is stimulated by food withdrawal, increases during fasting and acts as a bona fide gut-to-brain peptide that attenuates the release of a neuropeptide that drives fat loss in the periphery. Thus, INS-7 functions as a homeostatic signal from the intestine that gates the neuronal drive to stimulate fat loss during food shortage. Mechanistically, INS-7 functions as an antagonist at the canonical DAF-2 receptor and functions via FOXO and AMPK signaling in ASI neurons. Phylogenetic analysis suggests that INS-7 bears greater resemblance to members of the broad insulin/relaxin superfamily than to conventional mammalian insulin and IGF peptides. The discovery of an endogenous insulin antagonist secreted by specialized intestinal cells with enteroendocrine functions suggests unexpected and important properties of the intestine and its role in directing neuronal functions.
在秀丽隐杆线虫中,外周器官将内部状态信息传递到神经系统的机制尚不清楚,尽管有强有力的证据表明确实存在这种信号。在这里,我们报告了一种称为 INS-7 的前胰岛素超家族肽的发现,它作为一种肠内分泌肽,从肠道的专门细胞中分泌。INS-7 的分泌受食物剥夺的刺激,在禁食期间增加,并作为一种真正的肠-脑肽,可减弱驱动外周脂肪损失的神经肽的释放。因此,INS-7 作为来自肠道的稳态信号发挥作用,调节神经元驱动以在食物短缺期间刺激脂肪损失。从机制上讲,INS-7 作为经典的 DAF-2 受体的拮抗剂发挥作用,并通过 ASI 神经元中的 FOXO 和 AMPK 信号传导发挥作用。系统发育分析表明,INS-7 与广泛的胰岛素/松弛素超家族的成员更相似,而不是与传统的哺乳动物胰岛素和 IGF 肽相似。专门的肠细胞分泌的具有肠内分泌功能的内源性胰岛素拮抗剂的发现表明了肠道及其在指导神经元功能方面的作用具有意想不到的重要性质。
