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Metabolic and energetic benefits of microRNA-22 inhibition

Marc Thibonnier, Christine Esau, Sujoy Ghosh, Edward T. Wargent, Claire J. Stocker

2020BMJ Open Diabetes Research & Care41 citationsDOIOpen Access PDF

Abstract

Introduction We previously demonstrated in primary cultures of human subcutaneous adipocytes and in a mouse model of diet-induced obesity that specific microRNA-22-3p antagomirs produce a significant reduction of fat mass and an improvement of several metabolic parameters. These effects are related to the activation of target genes such as KDM3A , KDM6B , PPARA , PPARGC1B and SIRT1 involved in lipid catabolism, thermogenesis, insulin sensitivity and glucose homeostasis. Research design and methods We now report a dedicated study exploring over the course of 3 months the metabolic and energetic effects of subcutaneous administration of our first miR-22-3p antagomir drug candidate (APT-110) in adult C57BL/6 male mice. Body composition, various blood parameters and energy expenditure were measured at several timepoints between week 12 and week 27 of age. Results Weekly subcutaneous injections of APT-110 for 12 weeks produced a sustained increase of energy expenditure as early as day 11 of treatment, a significant fat mass reduction, but no change of appetite nor physical activity. Insulin sensitivity as well as circulating glucose, cholesterol and leptin were improved. There was a dramatic reduction of liver steatosis after 3 months of active treatment. RNA sequencing revealed an activation of lipid metabolism pathways in a tissue-specific manner. Conclusions These original findings suggest that microRNA-22-3p inhibition could lead to a potent treatment of fat accumulation, insulin resistance, and related complex metabolic disorders such as obesity, type 2 diabetes mellitus and non-alcoholic fatty liver disease.

Topics & Concepts

microRNAChemistryComputational biologyBiologyBiochemistryGeneMicroRNA in disease regulationRegulation of Appetite and ObesityAdipokines, Inflammation, and Metabolic Diseases
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