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Cold Exposure–induced Alterations in the Brain Peptidome and Gut Microbiome Are Linked to Energy Homeostasis in Mice

Xue Wang, Qianqian Wang, Zhao Mingxin, Ying Xu, Bin Fu, Li Zhang, Shuai Wu, Danfeng Yang, Chenxi Jia

2023Molecular & Cellular Proteomics12 citationsDOIOpen Access PDF

Abstract

Energy homeostasis of mammals during cold exposure involves complicated neural regulation and is affected by gut microbiota. However, the regulatory mechanism remains unclear partially due to a lack of comprehensive knowledge of the signaling molecules involved. Herein, we performed region-resolvable quantitative profiling of the brain peptidome using cold-exposed mouse models and interrogated the interaction between gut microbes and brain peptides in response to cold. Region-specific alterations in the brain peptidome were observed during chronic cold exposure and were correlated with gut microbiome composition. Several proSAAS-derived peptides exhibited a positive correlation with Lactobacillus. The hypothalamus-pituitary axis exhibited a sensitive response to cold exposure. We obtained a candidate pool of bioactive peptides that potentially participate in the regulation of cold-induced energy homeostasis. Intervention with cold-adapted microbiota in mice decreased the abundance of hypothalamic neurokinin B and subsequently contributed to shifting the fuel source for energy consumption from lipids to glucose. Collectively, this study demonstrated that gut microbes modulate brain peptides contributing to energy metabolism, providing a data resource for understanding the regulatory mechanism of energy homeostasis upon cold exposure.

Topics & Concepts

Energy homeostasisHomeostasisMicrobiomeGut floraBiologyHypothalamusCell biologyBiochemistryBioinformaticsReceptorNeuroscienceGut microbiota and healthNeuroendocrine regulation and behaviorAntimicrobial Peptides and Activities
Cold Exposure–induced Alterations in the Brain Peptidome and Gut Microbiome Are Linked to Energy Homeostasis in Mice | Litcius