Abstract
Lactate (LA), an endogenous metabolite produced from pyruvate, can accumulate in skeletal muscle in certain conditions including major diseases, as well as during intensive exercise. Using differentiated C2C12 myotubes, we evaluated the early (1-h) and delayed (24-h) effects of LA (8 mM) on mechanisms involved in myogenesis or muscle atrophy, including 5'-adenosine monophosphate-activated protein kinase (AMPK)-mediated inhibition of protein synthesis through the mTOR/P70-S6K pathway, Akt-mediated inhibition of expression of the MAFbx atrophic factor by FOXO3a and expression of the myogenic transcription factors, MyoD, myogenin and myosin heavy chain. Although the early effects of LA overload were not significant on myogenic or atrophic mechanisms, LA treatment for 24 h significantly activated atrophic mechanisms but suppressed myogenesis in myotubes. In addition, LA overload for 24 h significantly suppressed the expression of Sirtuin 1 and peroxisome proliferator-activated receptor gamma coactivator-1 alpha. Consistent with LA-induced activation of atrophic mechanisms, the diameter of C2C12 myotubes treated with LA for 24 h, but not for 1 h, was significantly lower than in control myotubes. Thus, a sustained, but not a transient, LA overload could induce muscle atrophy through the regulation of AMPK- and Akt-mediated pathways, although further in vivo studies are needed to confirm this.
Highlights
Skeletal muscle is a dynamic organ system that plays important roles in maintaining whole body metabolism by the uptake and utilization of glucose and fatty acids
Using differentiated C2C12 myotubes, we evaluated the early (1-h) and delayed (24-h) effects of LA (8 mM) on mechanisms involved in myogenesis or muscle atrophy, including 5'-adenosine monophosphate-activated protein kinase (AMPK)mediated inhibition of protein synthesis through the mammalian target of rapamycin (mTOR)/P70-S6 kinase (P70-S6K) pathway, Akt-mediated inhibition of expression of the MAFbx atrophic factor by forkhead box class O 3a (FOXO3a) and expression of the myogenic transcription factors, MyoD, myogenin and myosin heavy chain
To evaluate the effect of LA on Adenosine monophosphateactivated protein kinase (AMPK) and its downstream signaling proteins, we evaluated the levels of phosphorylated AMPK at Thr172 (p-AMPK), peroxisome proliferator-activated receptor gamma coactivator-1 alpha (PGC-1α), Sirtuin 1 (Sirt1), phosphorylated raptor at Ser792 (p-raptor) and phosphorylated P70-S6K at Thr421/Ser424 (p-P70-S6K)
Summary
Skeletal muscle is a dynamic organ system that plays important roles in maintaining whole body metabolism by the uptake and utilization of glucose and fatty acids. Through the Cori (or lactic acid) cycle, LA is converted to glucose in the liver and is used to supply glucose to other organs, including skeletal muscle. During acute- and high-intensity exercise, the rate of production of LA exceeds the conversion rate, so LA concentrations in skeletal muscle are over 10 mM [1, 2]. The concentration of LA in skeletal muscle and blood decreases rapidly after exercise with a half-life of
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