Discovery of Reldesemtiv, a Fast Skeletal Muscle Troponin Activator for the Treatment of Impaired Muscle Function

A number of chronic illnesses such as renal failure (CRF), obstructive pulmonary disease, and congestive heart failure result in a significant decrease in exercise tolerance. There is an increasing awareness that prescribed exercise, designed to restore some level of physical performance and quality of life, can be beneficial in these conditions. In CRF patients, muscle function can be affected by a number of direct and indirect mechanisms caused by renal disease as well as various treatment modalities. The aims of this review are twofold: first, to briefly discuss the mechanisms by which CRF negatively impacts skeletal muscle and, therefore, exercise capacity, and, second, to discuss the available data on the effects of programmed exercise on muscle function, exercise capacity, and various other parameters in CRF.

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Gait disturbances and muscle dysfunction in fibroblast growth factor 2 knockout mice

Scientific Reports ◽

10.1038/s41598-021-90565-0 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

C. Homer-Bouthiette ◽

L. Xiao ◽

Marja M. Hurley

Keyword(s):

Skeletal Muscle ◽

Growth Factor ◽

Muscle Strength ◽

Fibroblast Growth Factor ◽

Muscle Function ◽

Fibroblast Growth Factor 2 ◽

Fibroblast Growth ◽

Skeletal Muscle Function ◽

Age Related ◽

Gait Disturbances

AbstractFibroblast growth factor 2 (FGF2) is important in musculoskeletal homeostasis, therefore the impact of reduction or Fgf2 knockout on skeletal muscle function and phenotype was determined. Gait analysis as well as muscle strength testing in young and old WT and Fgf2KO demonstrated age-related gait disturbances and reduction in muscle strength that were exacerbated in the KO condition. Fgf2 mRNA and protein were significantly decreased in skeletal muscle of old WT compared with young WT. Muscle fiber cross-sectional area was significantly reduced with increased fibrosis and inflammatory infiltrates in old WT and Fgf2KO vs. young WT. Inflammatory cells were further significantly increased in old Fgf2KO compared with old WT. Lipid-related genes and intramuscular fat was increased in old WT and old Fgf2KO with a further increase in fibro-adipocytes in old Fgf2KO compared with old WT. Impaired FGF signaling including Increased β-Klotho, Fgf21 mRNA, FGF21 protein, phosphorylated FGF receptors 1 and 3, was observed in old WT and old Fgf2KO. MAPK/ ERK1/2 was significantly increased in young and old Fgf2KO. We conclude that Fgf2KO, age-related decreased FGF2 in WT mice, and increased FGF21 in the setting of impaired Fgf2 expression likely contribute to impaired skeletal muscle function and sarcopenia in mice.

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Structural Basis of Tirasemtiv Activation of Fast Skeletal Muscle

Journal of Medicinal Chemistry ◽

10.1021/acs.jmedchem.0c01412 ◽

2021 ◽

Vol 64 (6) ◽

pp. 3026-3034

Author(s):

Monica X. Li ◽

Pascal Mercier ◽

James J. Hartman ◽

Brian D. Sykes

Keyword(s):

Skeletal Muscle ◽

Structural Basis ◽

Fast Skeletal Muscle

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Fourteen days of smoking cessation improves muscle fatigue resistance and reverses markers of systemic inflammation

Scientific Reports ◽

10.1038/s41598-021-91510-x ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Mohammad Z. Darabseh ◽

Thomas M. Maden-Wilkinson ◽

George Welbourne ◽

Rob C. I. Wüst ◽

Nessar Ahmed ◽

...

Keyword(s):

Oxidative Stress ◽

Skeletal Muscle ◽

Smoking Cessation ◽

Muscle Fatigue ◽

Fatigue Resistance ◽

Systemic Inflammation ◽

Muscle Function ◽

Low Grade ◽

Skeletal Muscle Function ◽

Tnf Α

AbstractCigarette smoking has a negative effect on respiratory and skeletal muscle function and is a risk factor for various chronic diseases. To assess the effects of 14 days of smoking cessation on respiratory and skeletal muscle function, markers of inflammation and oxidative stress in humans. Spirometry, skeletal muscle function, circulating carboxyhaemoglobin levels, advanced glycation end products (AGEs), markers of oxidative stress and serum cytokines were measured in 38 non-smokers, and in 48 cigarette smokers at baseline and after 14 days of smoking cessation. Peak expiratory flow (p = 0.004) and forced expiratory volume in 1 s/forced vital capacity (p = 0.037) were lower in smokers compared to non-smokers but did not change significantly after smoking cessation. Smoking cessation increased skeletal muscle fatigue resistance (p < 0.001). Haemoglobin content, haematocrit, carboxyhaemoglobin, total AGEs, malondialdehyde, TNF-α, IL-2, IL-4, IL-6 and IL-10 (p < 0.05) levels were higher, and total antioxidant status (TAS), IL-12p70 and eosinophil numbers were lower (p < 0.05) in smokers. IL-4, IL-6, IL-10 and IL-12p70 had returned towards levels seen in non-smokers after 14 days smoking cessation (p < 0.05), and IL-2 and TNF-α showed a similar pattern but had not yet fully returned to levels seen in non-smokers. Haemoglobin, haematocrit, eosinophil count, AGEs, MDA and TAS did not significantly change with smoking cessation. Two weeks of smoking cessation was accompanied with an improved muscle fatigue resistance and a reduction in low-grade systemic inflammation in smokers.

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An opportunistic promoter sharing regulatory sequences with either a muscle-specific or a ubiquitous promoter in the human aldolase A gene.

Molecular and Cellular Biology ◽

10.1128/mcb.13.1.9 ◽

1993 ◽

Vol 13 (1) ◽

pp. 9-17 ◽

Cited By ~ 18

Author(s):

J P Concordet ◽

M Salminen ◽

J Demignon ◽

C Moch ◽

P Maire ◽

...

Keyword(s):

Skeletal Muscle ◽

Integration Site ◽

Regulatory Elements ◽

Regulatory Sequences ◽

Beta Globin ◽

Fast Skeletal Muscle ◽

High Level Expression ◽

Adult Skeletal Muscle ◽

High Level ◽

Aldolase A

The human aldolase A gene is transcribed from three different promoters, pN, pM, and pH, all of which are clustered within a small 1.6-kbp DNA domain. pM, which is highly specific to adult skeletal muscle, lies in between pN and pH, which are ubiquitous but particularly active in heart and skeletal muscle. A ubiquitous enhancer, located just upstream of pH start sites, is necessary for the activity of both pH and pN in transient transfection assays. Using transgenic mice, we studied the sequence controlling the muscle-specific promoter pM and the relations between the three promoters and the ubiquitous enhancer. A 4.3-kbp fragment containing the three promoters and the ubiquitous enhancer showed an expression pattern consistent with that known in humans. In addition, while pH was active in both fast and slow skeletal muscles, pM was active only in fast muscle. pM activity was unaltered by the deletion of a 1.8-kbp region containing the ubiquitous enhancer and the pH promoter, whereas pN remained active only in fast skeletal muscle. These findings suggest that in fast skeletal muscle, a tissue-specific enhancer was acting on both pN and pM, whereas in other tissues, the ubiquitous enhancer was necessary for pN activity. Finally, a 2.6-kbp region containing the ubiquitous enhancer and only the pH promoter was sufficient to bring about high-level expression of pH in cardiac and skeletal muscle. Thus, while pH and pM function independently of each other, pN, remarkably, shares regulatory elements with each of them, depending on the tissue. Importantly, expression of the transgenes was independent of the integration site, as originally described for transgenes containing the beta-globin locus control region.

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