Cultured equine satellite cells as a model system to assess leucine stimulated protein synthesis in horse muscle

Abstract: Leucine has been shown to stimulate the mammalian/mechanistic target of rapamycin (mTOR) signaling pathway which plays numerous key regulatory roles in cell growth, survival, and metabolism including protein synthesis in a number of species. However, previous work with equine satellite cells has suggested distinct species differences in regards to physiological effects and the magnitude of responses to growth factors and regulators. Because there is limited research available regarding the role of leucine in r… Show more

“…Supplementation with leucine has been shown to increase total protein synthesis in pigs fed a low protein diet (Yin et al., 2010) as well as in equine satellite cells (DeBoer et al., 2018). In equine satellite cells, the addition of leucine resulted in activation of mTOR translation and increased global protein translation but whole animal studies need to be undertaken.…”

Nutritional considerations for the management of equine pituitarypars intermediadysfunction

“…Supplementation with leucine has been shown to increase total protein synthesis in pigs fed a low protein diet (Yin et al., 2010) as well as in equine satellite cells (DeBoer et al., 2018). In equine satellite cells, the addition of leucine resulted in activation of mTOR translation and increased global protein translation but whole animal studies need to be undertaken.…”

Nutritional considerations for the management of equine pituitarypars intermediadysfunction

Leucine promotes energy metabolism and stimulates slow-twitch muscle fibers expression through AMPK/mTOR signaling in equine skeletal muscle satellite cells

Nutritional Influences on Skeletal Muscle and Muscular Disease