Neuron
Volume 83, Issue 2, 16 July 2014, Pages 344-360
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Article
MicroRNA 135 Is Essential for Chronic Stress Resiliency, Antidepressant Efficacy, and Intact Serotonergic Activity

https://doi.org/10.1016/j.neuron.2014.05.042Get rights and content
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Highlights

  • miRs “fingerprint” of 5HT neurons position miR135 as potent regulator of 5HT system

  • miR135a levels are upregulated following 5HT-linked antidepressants treatment

  • miR135 levels in vivo influence behavior, 5HT levels, and antidepressant treatment

  • Lower levels of miR135a in blood and brain of depressed human patients

Summary

The link between dysregulated serotonergic activity and depression and anxiety disorders is well established, yet the molecular mechanisms underlying these psychopathologies are not fully understood. Here, we explore the role of microRNAs in regulating serotonergic (5HT) neuron activity. To this end, we determined the specific microRNA “fingerprint” of 5HT neurons and identified a strong microRNA-target interaction between microRNA 135 (miR135), and both serotonin transporter and serotonin receptor-1a transcripts. Intriguingly, miR135a levels were upregulated after administration of antidepressants. Genetically modified mouse models, expressing higher or lower levels of miR135, demonstrated major alterations in anxiety- and depression-like behaviors, 5HT levels, and behavioral response to antidepressant treatment. Finally, miR135a levels in blood and brain of depressed human patients were significantly lower. The current results suggest a potential role for miR135 as an endogenous antidepressant and provide a venue for potential treatment and insights into the onset, susceptibility, and heterogeneity of stress-related psychopathologies.

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