Neuronal MiR-29a Protects from Obesity in Adult Mice

Overview

Journal Mol Metab

Specialty Cell Biology

Date 2022 May 1

PMID 35490865

Authors

Yuan Ma

Nicola Murgia

Yu Liu

Zixuan Li

Chaweewan Sirakawin

Ruslan Konovalov

Nikolai Kovzel

Yang Xu

Xuejia Kang

Anshul Tiwari

Patrick Malonza Mwangi

Donglei Sun

Holger Erfle

Witold Konopka

Qingxuan Lai

Syeda Sadia Najam

Ilya A Vinnikov

Affiliations

Soon will be listed here.

Abstract

Objective: Obesity, a growing threat to the modern society, represents an imbalance of metabolic queues that normally signal to the arcuate hypothalamic nucleus, a critical brain region sensing and regulating energy homeostasis. This is achieved by various neurons many of which developmentally originate from the proopiomelanocortin (POMC)-expressing lineage. Within the mature neurons originating from this lineage, we aimed to identify non-coding genes in control of metabolic function in the adulthood.

Methods: In this work, we used microRNA mimic delivery and POMC-dependent CRISPR-Cas9 knock-out strategies in young or aged mice. Importantly, we also used CRISPR guides directing suicide cleavage of Cas9 to limit the off-target effects.

Results: Here we found that mature neurons originating from the POMC lineage employ miR-29a to protect against insulin resistance obesity, hyperphagia, decreased energy expenditure and obesity. Moreover, we validated the miR-29 family as a prominent regulator of the PI3K-Akt-mTOR pathway. Within the latter, we identified a direct target of miR-29a-3p, Nras, which was up-regulated in those and only those mature POMCCas9 neurons that were effectively transduced by anti-miR-29 CRISPR-equipped construct. Moreover, POMC-dependent co-deletion of Nras in mature neurons attenuated miR-29 depletion-induced obesity.

Conclusions: Thus, the first to our knowledge case of in situ Cre-dependent CRISPR-Cas9-mediated knock-out of microRNAs in a specific hypothalamic neuronal population helped us to decipher a critical metabolic circuit in adult mice. This work significantly extends our understanding about the involvement of neuronal microRNAs in homeostatic regulation.

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