Proteomics

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Exercise training reverses cancer cachexia-induced decrease in muscle COPS2/TRIP15/ALIEN


ABSTRACT: The mechanisms underlying exercise-induced effects in the skeletal muscle during cancer cachexia progression have not been fully described. Here, we tested the hypothesis that different exercise training protocols could attenuate metabolic impairment in a severe model of cancer cachexia. Moderate-intensity training (MIT) and high-intensity interval training (HIIT) improved running capacity and prolonged lifespan in tumor-bearing rats. HIIT also reduced oxidative stress and reestablished muscle contractile function. An unbiased proteomics screening revealed that COP9 signalosome complex subunit 2 (COPS2), also known as thyroid receptor interacting protein 15 (TRIP15) or ALIEN, is one of the most downregulated proteins at the early stage of cancer cachexia progression. HIIT restored COPS2/TRIP15/ALIEN protein expression to the control levels. Moreover, lung cancer patients with low endurance capacity had lower muscle COPS2/TRIP15/ALIEN protein content compared to age- and sex-matched control subjects. We further established an in vitro model of cancer-induced muscle wasting using tumor cells-conditioned media to explore the potential protective role of COPS2/TRIP15/ALIEN for myotubes homeostasis. This in vitro model indicate that tumor cells produce factors that directly affect myotube metabolism, but COPS2/TRIP15/ALIEN overexpression is not able to fully reestablish metabolic homeostasis and protein content in myotubes incubated with tumor cells-conditioned media. The current study provides new insight into the role of exercise training as a co-therapy for cancer cachexia and uncovers COPS2/TRIP15/ALIEN as a novel potential target for cancer cachexia.

INSTRUMENT(S): LTQ Orbitrap Elite

ORGANISM(S): Mus Musculus (mouse)

TISSUE(S): Heart, Skeletal Muscle Fiber, Leg Muscle

SUBMITTER: Animesh Sharma  

LAB HEAD: Lars Hagen

PROVIDER: PXD013226 | Pride | 2021-09-08

REPOSITORIES: Pride

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<h4>Objective</h4>We tested the hypothesis that exercise training would attenuate metabolic impairment in a model of severe cancer cachexia.<h4>Methods</h4>We used multiple in vivo and in vitro methods to explore the mechanisms underlying the beneficial effects induced by exercise training in tumor-bearing rats.<h4>Results</h4>Exercise training improved running capacity, prolonged lifespan, reduced oxidative stress, and normalized muscle mass and contractile function in tumor-bearing rats. An un  ...[more]

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