Insulin Resistance at the Crossroads of Metabolic Inflammation, Cardiovascular Disease, Organ Failure and Cancer
Amedeo Lonardo, Ralf Weiskirchen
Abstract
Insulin resistance (IR) describes impaired hormone signaling that triggers compensatory homeostatic responses resulting in hyperinsulinemia, increased accumulation of fatty substrates, lipotoxicity, oxidative stress, inflammation, cell death and fibrosis in target tissues. These processes ultimately lead to organ dysfunction and predispose certain individuals to various types of cancer. In this context, we will review the molecular pathogenesis and clinical significance of IR, its role in 'metaflammation', and the damage caused by IR in the pancreas, cardiovascular system, liver, and kidneys. Additionally, we will discuss principles of drug treatment for IR and outline a research agenda in this field.
Topics & Concepts
Insulin resistanceMedicinePathogenesisCancerHomeostasisHormoneDiabetes mellitusInsulinBioinformaticsFibrosisOrgan systemDiseaseHeart failureOxidative stressClinical significanceSignal transductionEndocrinologyOrgan dysfunctionInternal medicineOxidative damageCancer researchInsulin receptorCellType 2 diabetesCell metabolismLipotoxicityMechanism (biology)DrugProgrammed cell deathDetoxification (alternative medicine)Metabolic syndromeDrug resistanceMetabolism, Diabetes, and CancerAdipokines, Inflammation, and Metabolic DiseasesCancer, Lipids, and Metabolism