Litcius/Paper detail

The role of mitochondria in metabolic disease: a special emphasis on heart dysfunction

Marilén Federico, Sergio de la Fuente, Julieta Palomeque, Shey‐Shing Sheu

2021The Journal of Physiology35 citationsDOIOpen Access PDF

Abstract

Abstract Metabolic diseases (MetDs) embrace a series of pathologies characterized by abnormal body glucose usage. The known diseases included in this group are metabolic syndrome, prediabetes and diabetes mellitus types 1 and 2. All of them are chronic pathologies that present metabolic disturbances and are classified as multi‐organ diseases. Cardiomyopathy has been extensively described in diabetic patients without overt macrovascular complications. The heart is severely damaged during the progression of the disease; in fact, diabetic cardiomyopathies are the main cause of death in MetDs. Insulin resistance, hyperglycaemia and increased free fatty acid metabolism promote cardiac damage through mitochondria. These organelles supply most of the energy that the heart needs to beat and to control essential cellular functions, including Ca 2+ signalling modulation, reactive oxygen species production and apoptotic cell death regulation. Several aspects of common mitochondrial functions have been described as being altered in diabetic cardiomyopathies, including impaired energy metabolism, compromised mitochondrial dynamics, deficiencies in Ca 2+ handling, increases in reactive oxygen species production, and a higher probability of mitochondrial permeability transition pore opening. Therefore, the mitochondrial role in MetD‐mediated heart dysfunction has been studied extensively to identify potential therapeutic targets for improving cardiac performance. Herein we review the cardiac pathology in metabolic syndrome, prediabetes and diabetes mellitus, focusing on the role of mitochondrial dysfunctions. image

Topics & Concepts

PrediabetesDiabetic cardiomyopathyMitochondrionDiabetes mellitusMetabolic syndromeInsulin resistanceMedicineOxidative stressInternal medicineDiseaseReactive oxygen speciesHeart diseaseCardiomyopathyMitochondrial permeability transition poreEndocrinologyBioinformaticsBiologyType 2 diabetesHeart failureProgrammed cell deathApoptosisCell biologyBiochemistryMitochondrial Function and PathologyCardiovascular Function and Risk FactorsAdipose Tissue and Metabolism