Integrative analysis identifies region- and sex-specific gene networks and Mef2c as a mediator of anxiety-like behavior

• Published in: Cell reports (Cambridge) Vol. 43; no. 7; p. 114455
• Main Authors: Hong, Yizhou, Hu, Jiameng, Zhang, Shiya, Liu, Jiaxin, Yan, Fangrong, Yang, Hua, Hu, Haiyang
• Format: Journal Article
• Language: English
• Published: United States Elsevier Inc 23.07.2024; Elsevier
• Subjects: anxiety disorders; CP: Neuroscience; Mef2c; multi-brain region; network module; sexual dimorphism; transcriptome; network module; Mef2c; CP: Neuroscience; multi-brain region; transcriptome; anxiety disorders; sexual dimorphism
• ISSN: 2211-1247; 2211-1247
• DOI: 10.1016/j.celrep.2024.114455

The molecular mechanisms underlying multi-brain region origins and sexual dimorphism of anxiety remain unclear. Here, we leverage large-scale transcriptomics from seven brain regions in mouse models of anxiety and extensive experiments to dissect brain-region- and sex-specific gene networks. We identify 4,840 genes with sex-specific expression alterations across seven brain regions, organized into ten network modules with sex-biased expression patterns. Modular analysis prioritizes 86 sex-specific mediators of anxiety susceptibility, including myocyte-specific enhancer factor 2c (Mef2c) in the CA3 region of male mice. Mef2c expression is decreased in the pyramidal neurons (PyNs) of susceptible male mice. Up-regulating Mef2c in CA3 PyNs significantly alleviates anxiety-like behavior, whereas down-regulating Mef2c induces anxiety-like behavior in male mice. The anxiolytic effect of Mef2c up-regulation is associated with enhanced neuronal excitability and synaptic transmission. In summary, this study uncovers brain-region- and sex-specific networks and identifies Mef2c in CA3 PyNs as a critical mediator of anxiety in male mice. [Display omitted] •Large-scale transcriptomics of multiple brain regions from male and female CRS mice•Substantial sex-biased expression alteration across brain regions of CRS mice•Brain-region- and sex-biased modules and key mediators of anxiety-like behavior•Mef2c in pyramidal neurons of CA3 mediates male-biased anxiety-like phenotype Hong et al. leverage large-scale multiple brain region transcriptomics and molecular and behavioral experiments from male and female CRS mice to dissect brain-region- and sex-biased networks and key mediators of anxiety susceptibility. They identify Mef2c of CA3 PyNs as a critical mediator of anxiety-like behavior in male mice.