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用于精神障碍和代谢功能障碍的双重临床前模型中的血清素/GLP-1 回路的相互作用。

Interaction of serotonin/GLP-1 circuitry in a dual preclinical model for psychiatric disorders and metabolic dysfunction.

机构信息

Department of Neuroscience and Pharmacology, University of Iowa, Iowa City, IA, USA.

Psychological Sciences, Daemen University, Amherst, New York, USA.

出版信息

Psychiatry Res. 2024 Jul;337:115951. doi: 10.1016/j.psychres.2024.115951. Epub 2024 May 8.

DOI:10.1016/j.psychres.2024.115951
PMID:38735240
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11267813/
Abstract

Isolation of rodents throughout adolescence is known to induce many behavioral abnormalities which resemble neuropsychiatric disorders. Separately, this paradigm has also been shown to induce long-term metabolic changes consistent with a pre-diabetic state. Here, we investigate changes in central serotonin (5-HT) and glucagon-like peptide 1 (GLP-1) neurobiology that dually accompany behavioral and metabolic outcomes following social isolation stress throughout adolescence. We find that adolescent-isolation mice exhibit elevated blood glucose levels, impaired peripheral insulin signaling, altered pancreatic function, and fattier body composition without changes in bodyweight. These mice further exhibited disruptions in sleep and enhanced nociception. Using bulk and spatial transcriptomic techniques, we observe broad changes in neural 5-HT, GLP-1, and appetitive circuits. We find 5-HT neurons of adolescent-isolation mice to be more excitable, transcribe fewer copies of Glp1r (mRNA; GLP-1 receptor), and demonstrate resistance to the inhibitory effects of the GLP-1R agonist semaglutide on action potential thresholds. Surprisingly, we find that administration of semaglutide, commonly prescribed to treat metabolic syndrome, induced deficits in social interaction in group-housed mice and rescued social deficits in isolated mice. Overall, we find that central 5-HT circuitry may simultaneously influence mental well-being and metabolic health in this model, via interactions with GLP-1 and proopiomelanocortin circuitry.

摘要

在整个青春期将啮齿动物隔离开来已知会引起许多类似神经精神障碍的行为异常。此外,该范式还显示出诱导长期代谢变化,与糖尿病前期状态一致。在这里,我们研究了中枢 5-羟色胺(5-HT)和胰高血糖素样肽 1(GLP-1)神经生物学的变化,这些变化伴随着青春期社交隔离应激后的行为和代谢结果。我们发现,青春期隔离的小鼠表现出血糖升高、外周胰岛素信号受损、胰腺功能改变和体脂增加而体重不变。这些小鼠进一步表现出睡眠中断和痛觉增强。使用批量和空间转录组学技术,我们观察到神经 5-HT、GLP-1 和食欲回路的广泛变化。我们发现青春期隔离小鼠的 5-HT 神经元更易兴奋,转录的 Glp1r(mRNA;GLP-1 受体)更少,并且对 GLP-1R 激动剂司美格鲁肽对动作电位阈值的抑制作用表现出抗性。令人惊讶的是,我们发现,通常用于治疗代谢综合征的司美格鲁肽的给药会导致群居小鼠的社交互动缺陷,并挽救隔离小鼠的社交缺陷。总的来说,我们发现中枢 5-HT 回路可能通过与 GLP-1 和 proopiomelanocortin 回路的相互作用,同时影响该模型的心理健康和代谢健康。

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