Simone Mosole scite author profile

The histologic features of aging muscle suggest that denervation contributes to atrophy, that immobility accelerates the process, and that routine exercise may protect against loss of motor units and muscle tissue. Here, we compared muscle biopsies from sedentary and physically active seniors and found that seniors with a long history of high-level recreational activity up to the time of muscle biopsy had 1) lower loss of muscle strength versus young men (32% loss in physically active vs 51% loss in sedentary seniors); 2) fewer small angulated (denervated) myofibers; 3) a higher percentage of fiber-type groups (reinnervated muscle fibers) that were almost exclusive of the slow type; and 4) sparse normal-size muscle fibers coexpressing fast and slow myosin heavy chains, which is not compatible with exercise-driven muscle-type transformation. The biopsies from the old physically active seniors varied from sparse fiber-type groupings to almost fully transformed muscle, suggesting that coexpressing fibers appear to fill gaps. Altogether, the data show that long-term physical activity promotes reinnervation of muscle fibers and suggest that decades of high-level exercise allow the body to adapt to age-related denervation by saving otherwise lost muscle fibers through selective recruitment to slow motor units. These effects on size and structure of myofibers may delay functional decline in late aging.

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Electrical Stimulation Counteracts Muscle Decline in Seniors

Kern

Barberi

Löefler

et al. 2014

Front. Aging Neurosci.

135

144

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The loss in muscle mass coupled with a decrease in specific force and shift in fiber composition are hallmarks of aging. Training and regular exercise attenuate the signs of sarcopenia. However, pathologic conditions limit the ability to perform physical exercise. We addressed whether electrical stimulation (ES) is an alternative intervention to improve muscle recovery and defined the molecular mechanism associated with improvement in muscle structure and function. We analyzed, at functional, structural, and molecular level, the effects of ES training on healthy seniors with normal life style, without routine sport activity. ES was able to improve muscle torque and functional performances of seniors and increased the size of fast muscle fibers. At molecular level, ES induced up-regulation of IGF-1 and modulation of MuRF-1, a muscle-specific atrophy-related gene. ES also induced up-regulation of relevant markers of differentiating satellite cells and of extracellular matrix remodeling, which might guarantee shape and mechanical forces of trained skeletal muscle as well as maintenance of satellite cell function, reducing fibrosis. Our data provide evidence that ES is a safe method to counteract muscle decline associated with aging.

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Commensal bacteria promote endocrine resistance in prostate cancer through androgen biosynthesis

Pernigoni

Zagato

Calcinotto

et al. 2021

Science

175

134

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Microbes hijack prostate cancer therapy Androgens such as testosterone and dihydrotestosterone are essential for male reproduction and sexual function. Androgens can also influence the growth of prostate tumor cells, and androgen deprivation therapy (ADT) either by surgical means (castration) or pharmacological approaches (hormone suppression), is the cornerstone of current prostate cancer treatments. Pernigoni et al . found that when the body was deprived of androgens during ADT, the gut microbiome could produce androgens from androgen precursors (see the Perspective by McCulloch and Trinchieri). Gut commensal microbiota in ADT-treated patients or castrated mice produced androgens that were absorbed into the systemic circulation. These microbe-derived androgens appeared to favor the growth of prostate cancer and helped to facilitate development into a castration- or endocrine therapy–resistant state. —PNK

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Simone Mosole

Long-Term High-Level Exercise Promotes Muscle Reinnervation With Age

Electrical Stimulation Counteracts Muscle Decline in Seniors

Commensal bacteria promote endocrine resistance in prostate cancer through androgen biosynthesis

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