Chronic social isolation leads to abnormal behavior in male mice through the hippocampal METTL14 mediated epitranscriptomic RNA m6A modifications.

Background: Social isolation not only increases the risk of mortality in later life but also causes depressive symptoms, cognitive and physical disabilities. Although RNA m6A modifications are suggested to play key roles in brain development, neuronal signaling and neurological disorders, both the roles of m6A and the enzymes that regulate RNA m6A modification in social isolation induced abnormal behavior is unknown. The present study aims to explore the possible epitranscriptomic role of RNA m6A modifications and its enzymes in social isolation induced impaired behavior.

Methods: 3-4 weeks mice experiencing 8 weeks social isolation stress (SI) were used in the present study. We quantified m6A levels in brain regions related to mood and cognitive behavior. And the expression of hippocampal m6A enzymes was also determined. The role of hippocampal m6A and its enzymes in SI induced abnormal behavior was further verified by the virus tool.

Results: SI led to not only depressive and anxiety-like behaviors but also cognitive impairment, with corresponding decreases in hippocampal m6A and METTL14. Hippocampal over-expression METTL14 with lentivirus not only rescued these behaviors but also enhanced the hippocampal m6A level. Hippocampal over-expression METTL14 resulted in increased synaptic related genes.

Conclusions: We provide the first evidence that post-weaning social isolation reduces hippocampal m6A level and causes altered expression of m6A enzyme in mice. Importantly, hippocampal METTL14 over-expression alleviated the SI-induced depression/anxiety-like and impaired cognitive behaviors and enhanced m6A level and synaptic related genes expression.