Abstract
5′-Adenosine monophosphate-activated protein kinase (AMPK) has been identified as a key mediator of contraction-stimulated insulin-independent glucose transport in skeletal muscle. Caffeine acutely stimulates AMPK in resting skeletal muscle, but it is unknown whether caffeine affects AMPK in contracting muscle. Isolated rat epitrochlearis muscle was preincubated and then incubated in the absence or presence of 3 mmol/L caffeine for 30 or 120 min. Electrical stimulation (ES) was used to evoke tetanic contractions during the last 10 min of the incubation period. The combination of caffeine plus contraction had additive effects on AMPKα Thr172 phosphorylation, α-isoform-specific AMPK activity, and 3-O-methylglucose (3MG) transport. In contrast, caffeine inhibited basal and contraction-stimulated Akt Ser473 phosphorylation. Caffeine significantly delayed muscle fatigue during contraction, and the combination of caffeine and contraction additively decreased ATP and phosphocreatine contents. Caffeine did not affect resting tension. Next, rats were given an intraperitoneal injection of caffeine (60 mg/kg body weight) or saline, and the extensor digitorum longus muscle was dissected 15 min later. ES of the sciatic nerve was performed to evoke tetanic contractions for 5 min before dissection. Similar to the findings from isolated muscles incubated in vitro, the combination of caffeine plus contraction in vivo had additive effects on AMPK phosphorylation, AMPK activity, and 3MG transport. Caffeine also inhibited basal and contraction-stimulated Akt phosphorylation in vivo. These findings suggest that caffeine and contraction synergistically stimulate AMPK activity and insulin-independent glucose transport, at least in part by decreasing muscle fatigue and thereby promoting energy consumption during contraction.
Highlights
Skeletal muscle plays a major role in whole-body glucose metabolism in rodents and humans
Physiological Reports published by Wiley Periodicals, Inc. on behalf of the American Physiological Society and The Physiological Society
We reported previously that incubation with caffeine (≥3 mmol/L for ≥15 min) increased AMPKa Thr172 phosphorylation and AMPKa1 and a2 activities in isolated rat skeletal muscles and that these effects were accompanied by increased insulin-independent glucose transport (Egawa et al 2009)
Summary
Skeletal muscle plays a major role in whole-body glucose metabolism in rodents and humans. Many researchers have reported that caffeine increases exercise performance and delays fatigue in rodents (Ryu et al 2001; Zheng et al 2014) and humans (Costill et al 1978; Graham and Spriet 1995; Tarnopolsky and Cupido 2000; Ryu et al 2001; Simmonds et al 2010) These ergogenic actions of caffeine led us to hypothesize that caffeine stimulates AMPK and glucose transport in contracting states by causing profound changes in the cellular energy status in skeletal muscle. We explored the effect of systemic caffeine administration on contracting skeletal muscle in living rats
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