Shelby E. Bollen scite author profile

Despite vitamin D‐deficiency clinically presenting with myopathy, muscle weakness and atrophy, the mechanisms by which vitamin D exerts its homeostatic effects upon skeletal muscle remain to be fully established. Recent studies have shown that the receptor by which 1α,25‐dihydroxyvitamin D3 (1,25[OH]2D3) exerts its biological actions (ie, the vitamin D receptor, VDR) elicits both genomic and non‐genomic effects upon skeletal muscle. The controversy surrounding skeletal muscle VDR mRNA/protein expression in post‐natal muscle has been allayed by myriad recent studies, while dynamic expression of VDR throughout myogenesis, and association of higher VDR levels during muscle regeneration/immature muscle cells, suggests a role in myogenesis and perhaps an enrichment of VDR in satellite cells. Accordingly, in vitro studies have demonstrated 1,25(OH)2D3 is anti‐proliferative in myoblasts, yet pro‐differentiation in latter stages of myogenesis. These effects involve modulation of gene expression (VDR as a transcriptional co‐activator controls ~3% of the genome) and post‐genomic intracellular signalling for example, via c‐Src and alterations to intramuscular calcium homeostasis and proteostasis. The aim of this review is to consider the biomolecular role for the vitamin D/VDR axis in myogenesis, while also exploring global evidence for genomic and non‐genomic mechanisms of action for 1,25(OH)2D3/VDR.

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The impact of genetic variation within the vitamin D pathway upon skeletal muscle function: A systematic review

Bollen

Bass

Wilkinson

et al. 2023

The Journal of Steroid Biochemistry and Molecular Biology

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Shelby E. Bollen

The Vitamin D/Vitamin D receptor (VDR) axis in muscle atrophy and sarcopenia

Myogenic, genomic and non‐genomic influences of the vitamin D axis in skeletal muscle

The impact of genetic variation within the vitamin D pathway upon skeletal muscle function: A systematic review

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