Adaptive processes in skeletal muscle & genetic influences

Posted by admin March 24th, 2009

Skeletal muscle is a highly adaptable tissue. It responds to environmental and physiological challenges by changes in size, fibre type and metabolism. All of these responses are underpinned by our genes and it is therefore generally assumed that genetic variation between individuals may account for the differences in musculature and athletic capabilities between people. Research into the genetic influences of our muscle is at an embryonic stage, but some early insight into potential regulators has recently emerged, which is reflected in this review. Broad heritability, which appears to affect muscle size and strength more than metabolism has been assessed in twin and sibling studies. It appears to account for more inter-individual variation in the young as opposed to older people.

However, the current search for target “exercise genes” in humans has yielded the first successful results. Variations in the genes encoding for: the angiotensin converting enzyme, alpha-actinin 3, bradykinin, ciliary neurotrophic factor, interleukin-15, insulin-like growth factor II, myostatin and the vitamin D-receptor have all been found to account for some of the inter-subject variability in muscle strength or size.

Reference: J Musculoskelet Neuronal Interact 2006; 6(l):73-86

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