| Literature DB >> 31675497 |
Ke-Qi Fan1, Yi-Yuan Li1, Hao-Li Wang1, Xin-Tao Mao1, Jin-Xin Guo1, Fei Wang1, Ling-Jie Huang2, Yi-Ning Li1, Xiang-Yu Ma3, Zheng-Jun Gao1, Wei Chen4, Dan-Dan Qian5, Wen-Jin Xue5, Qian Cao2, Lei Zhang2, Li Shen1, Long Zhang1, Chao Tong1, Jiang-Yan Zhong1, Wei Lu5, Ling Lu6, Ke-Ming Ren2, Guisheng Zhong7, Yuan Wang4, Mingliang Tang5, Xin-Hua Feng1, Ren-Jie Chai8, Jin Jin9.
Abstract
Physical or mental stress leads to neuroplasticity in the brain and increases the risk of depression and anxiety. Stress exposure causes the dysfunction of peripheral T lymphocytes. However, the pathological role and underlying regulatory mechanism of peripheral T lymphocytes in mood disorders have not been well established. Here, we show that the lack of CD4+ T cells protects mice from stress-induced anxiety-like behavior. Physical stress-induced leukotriene B4 triggers severe mitochondrial fission in CD4+ T cells, which further leads to a variety of behavioral abnormalities including anxiety, depression, and social disorders. Metabolomic profiles and single-cell transcriptome reveal that CD4+ T cell-derived xanthine acts on oligodendrocytes in the left amygdala via adenosine receptor A1. Mitochondrial fission promotes the de novo synthesis of purine via interferon regulatory factor 1 accumulation in CD4+ T cells. Our study implicates a critical link between a purine metabolic disorder in CD4+ T cells and stress-driven anxiety-like behavior.Entities:
Keywords: AdorA1; IRF-1; T cell; amygdala; anxiety; leukotriene B4; purine metabolism; stress; xanthine
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Year: 2019 PMID: 31675497 DOI: 10.1016/j.cell.2019.10.001
Source DB: PubMed Journal: Cell ISSN: 0092-8674 Impact factor: 41.582