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Chemogenetic manipulation of CX3CR1+ cells transiently induces hypolocomotion independent of microglia.


ABSTRACT: Chemogenetic approaches using Designer Receptors Exclusively Activated by Designer Drugs (DREADD, a family of engineered GPCRs) were recently employed in microglia. Here, we used Cx3cr1CreER/+:R26hM4Di/+ mice to express Gi-DREADD (hM4Di) on CX3CR1+ cells, comprising microglia and some peripheral immune cells, and found that activation of hM4Di on long-lived CX3CR1+ cells induced hypolocomotion. Unexpectedly, Gi-DREADD-induced hypolocomotion was preserved when microglia were depleted. Consistently, specific activation of microglial hM4Di cannot induce hypolocomotion in Tmem119CreER/+:R26hM4Di/+ mice. Flow cytometric and histological analysis showed hM4Di expression in peripheral immune cells, which may be responsible for the hypolocomotion. Nevertheless, depletion of splenic macrophages, hepatic macrophages, or CD4+ T cells did not affect Gi-DREADD-induced hypolocomotion. Our study demonstrates that rigorous data analysis and interpretation are needed when using Cx3cr1CreER/+ mouse line to manipulate microglia.

SUBMITTER: Zhao S 

PROVIDER: S-EPMC10906107 | biostudies-literature | 2023 Jul

REPOSITORIES: biostudies-literature

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Chemogenetic manipulation of CX3CR1<sup>+</sup> cells transiently induces hypolocomotion independent of microglia.

Zhao Shunyi S   Zheng Jiaying J   Wang Lingxiao L   Umpierre Anthony D AD   Parusel Sebastian S   Xie Manling M   Dheer Aastha A   Ayasoufi Katayoun K   Johnson Aaron J AJ   Richardson Jason R JR   Wu Long-Jun LJ  

Molecular psychiatry 20230626 7


Chemogenetic approaches using Designer Receptors Exclusively Activated by Designer Drugs (DREADD, a family of engineered GPCRs) were recently employed in microglia. Here, we used Cx3cr1<sup>CreER/+</sup>:R26<sup>hM4Di/+</sup> mice to express Gi-DREADD (hM4Di) on CX3CR1<sup>+</sup> cells, comprising microglia and some peripheral immune cells, and found that activation of hM4Di on long-lived CX3CR1<sup>+</sup> cells induced hypolocomotion. Unexpectedly, Gi-DREADD-induced hypolocomotion was preserv  ...[more]

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