CX3CR1 mediates motor dysfunction in mice through 5-HTR2a.

CX3CR1 knockout could induce motor dysfunction in several neurological disease models mainly through regulating microglia's function. While CX3CR1 was expressed on neurons in a few reports, whether neuronal CX3CR1 could affect the function of neurons and mediate motor dysfunction under physiological conditions is unknown. To elucidate the roles of neuronal CX3CR1 on motor dysfunction, CX3CR1 knockout mice were created. Rotarod test and Open field test found that the CX3CR1-/- mice's motor capacity was reduced. Immunofluorescence staining detected the expression of CX3CR1 in neurons both in vivo and in vitro. Immunohistochemistry and West blot found that knockout of CX3CR1 did not affect the neurons' number in both spinal cord and brain of mice. While inhibiting the function of CX3CR1 by AZD8797 could decrease the expression of 5-Hydroxytryptamine receptor(5-HTR2a), which involved in the regulation of motor function. Further investigation revealed that CX3CR1 regulated the expression of HTR2a through the NF-κB pathway. For the first time, we reported that neuronal CXCR1 mediates motor dysfunction. Our results suggest that modulating CXCR1 activity offers a novel therapeutic strategy for motor dysfunction. Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.

Citation

Jingchun Pei, Yongwei Zou, Cheng Wan, Shuangshuang Liu, Bin Hu, Zhigao Li, Zhiwei Tang. CX3CR1 mediates motor dysfunction in mice through 5-HTR2a. Behavioural brain research. 2024 Mar 12;461:114837

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PMID: 38145872

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