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Vav2 catalysis-dependent pathways contribute to skeletal muscle growth and metabolic homeostasis

Sonia Rodríguez‐Fdez, L. Francisco Lorenzo‐Martín, Isabel Fernández‐Pisonero, Begoña Porteiro, Christelle Veyrat‐Durebex, Daniel Beiroa, Omar Al–Massadi, Antonio Abad, Carlos Diéguez, Roberto Coppari, Rubén Nogueiras, Xosé R. Bustelo

2020Nature Communications37 citationsDOIOpen Access PDF

Abstract

Skeletal muscle promotes metabolic balance by regulating glucose uptake and the stimulation of multiple interorgan crosstalk. We show here that the catalytic activity of Vav2, a Rho GTPase activator, modulates the signaling output of the IGF1- and insulin-stimulated phosphatidylinositol 3-kinase pathway in that tissue. Consistent with this, mice bearing a Vav2 protein with decreased catalytic activity exhibit reduced muscle mass, lack of proper insulin responsiveness and, at much later times, a metabolic syndrome-like condition. Conversely, mice expressing a catalytically hyperactive Vav2 develop muscle hypertrophy and increased insulin responsiveness. Of note, while hypoactive Vav2 predisposes to, hyperactive Vav2 protects against high fat diet-induced metabolic imbalance. These data unveil a regulatory layer affecting the signaling output of insulin family factors in muscle.

Topics & Concepts

Internal medicineCrosstalkEndocrinologySkeletal muscleGlucose homeostasisInsulinBiologyActivator (genetics)Cell biologyHomeostasisSignal transductionChemistryInsulin resistanceReceptorMedicineOpticsPhysicsMetabolism, Diabetes, and CancerProtein Kinase Regulation and GTPase SignalingAdipose Tissue and Metabolism