Vav2 catalysis-dependent pathways contribute to skeletal muscle growth and metabolic homeostasis.
Sonia Rodríguez-FdezLuis Francisco Lorenzo-MartínIsabel Fernández-PisoneroBegoña PorteiroChristelle Veyrat-DurebexDaniel BeiroaOmar Al-MassadiAntonio AbadCarlos DiéguezRoberto CoppariRuben NogueirasXosé R BusteloPublished in: Nature communications (2020)
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.
Keyphrases
- skeletal muscle
- high fat diet induced
- insulin resistance
- type diabetes
- glycemic control
- metabolic syndrome
- protein kinase
- adipose tissue
- electronic health record
- cardiovascular disease
- uric acid
- protein protein
- binding protein
- small molecule
- big data
- smooth muscle
- wild type
- cell proliferation
- deep learning
- nuclear factor
- signaling pathway
- blood pressure
- artificial intelligence
- cardiovascular risk factors
- data analysis