Daniel Andersson scite author profile

Summary Age-related loss of muscle mass and force (sarcopenia) contributes to disability and increased mortality. Ryanodine receptor 1 (RyR1) is the skeletal muscle sarcoplasmic reticulum calcium release channel required for muscle contraction. RyR1 from aged (24 months) rodents were oxidized, cysteine-nitrosylated, and depleted of the channel stabilizing subunit calstabin1, compared to RyR1 from younger (3–6 months) adults. This RyR1 channel complex remodeling resulted in “leaky” channels with increased open probability leading to intracellular calcium leak in skeletal muscle. Similarly, six-month old mice harboring leaky RyR1-S2844D mutant channels exhibited skeletal muscle defects comparable to 24-month old wild type mice. Treating aged mice with S107, stabilized binding of calstabin1 to RyR1, reduced intracellular calcium leak, decreased reactive oxygen species (ROS), and enhanced tetanic Ca2+ release, muscle specific force and exercise capacity. Taken together these data indicate that leaky RyR1 contribute to age-related loss of muscle function.

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Excess TGF-β mediates muscle weakness associated with bone metastases in mice

Waning

Mohammad

Reiken

et al. 2015

Nat Med

327

378

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Cancer-associated muscle weakness is poorly understood and there is no effective treatment. Here, we find that seven different mouse models of human osteolytic bone metastases, representing breast, lung and prostate cancers, as well as multiple myeloma exhibited impaired muscle function, implicating a role for the tumor-bone microenvironment in cancer-associated muscle weakness. We found that TGF-β, released from the bone surface as a result of metastasis-induced bone destruction upregulated NADPH oxidase 4 (Nox4), resulting in elevated oxidization of skeletal muscle proteins, including the ryanodine receptor/calcium (Ca2+) release channel (RyR1). The oxidized RyR1 channels leaked Ca2+, resulting in lower intracellular signaling required for proper muscle contraction. We found that inhibiting RyR1 leak, TGF-β signaling, TGF-β release from bone or Nox4 all improved muscle function in mice with MDA-MB-231 bone metastases. Humans with breast cancer- or lung cancer-associated bone metastases also had oxidized skeletal muscle RyR1 that is not seen in normal muscle. Similarly, skeletal muscle weakness, higher levels of Nox4 protein and Nox4 binding to RyR1, and oxidation of RyR1 were present in a mouse model of Camurati-Engelmann disease, a non-malignant metabolic bone disorder associated with increased TGF-β activity. Thus, metastasis-induced TGF-β release from bone contributes to muscle weakness by decreasing Ca2+-induced muscle force production.

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Erythrocytes From Patients With Type 2 Diabetes Induce Endothelial Dysfunction Via Arginase I

Zhou

Mahdi

Tratsiakovich

et al. 2018

Journal of the American College of Cardiology

141

160

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