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MicroRNA Let-7 targets AMPK and impairs hepatic lipid metabolism in offspring of maternal obese pregnancies

Laís Angélica de Paula Simino, Carolina Panzarin, Marina Figueiredo Fontana, Thaís de Fante, Murilo Vieira Geraldo, Letícia Martins Ignácio-Souza, Marciane Milanski, Márcio Alberto Torsoni, Michael G. Ross, Mina Desai, Adriana Souza Torsoni

2021Scientific Reports31 citationsDOIOpen Access PDF

Abstract

Nutritional status during gestation may lead to a phenomenon known as metabolic programming, which can be triggered by epigenetic mechanisms. The Let-7 family of microRNAs were one of the first to be discovered, and are closely related to metabolic processes. Bioinformatic analysis revealed that Prkaa2, the gene that encodes AMPK α2, is a predicted target of Let-7. Here we aimed to investigate whether Let-7 has a role in AMPKα2 levels in the NAFLD development in the offspring programmed by maternal obesity. Let-7 levels were upregulated in the liver of newborn mice from obese dams, while the levels of Prkaa2 were downregulated. Let-7 levels strongly correlated with serum glucose, insulin and NEFA, and in vitro treatment of AML12 with glucose and NEFA lead to higher Let-7 expression. Transfection of Let-7a mimic lead to downregulation of AMPKα2 levels, while the transfection with Let-7a inhibitor impaired both NEFA-mediated reduction of Prkaa2 levels and the fat accumulation driven by NEFA. The transfection of Let-7a inhibitor in ex-vivo liver slices from the offspring of obese dams restored phospho-AMPKα2 levels. In summary, Let-7a appears to regulate hepatic AMPKα2 protein levels and lead to the early hepatic metabolic disturbances in the offspring of obese dams.

Topics & Concepts

NEFAAMPKOffspringDownregulation and upregulationEndocrinologySteatosisInternal medicineBiologyInsulinMedicinePregnancyGeneCell biologyProtein kinase ABiochemistryGeneticsPhosphorylationMicroRNA in disease regulationAdipose Tissue and MetabolismBirth, Development, and Health
MicroRNA Let-7 targets AMPK and impairs hepatic lipid metabolism in offspring of maternal obese pregnancies | Litcius