%0 Journal Article
%T Low pre©\exercise muscle glycogen availability offsets the effect of post©\exercise cold water immersion in augmenting PGC©\1¦Á gene expression
%A Adam P. Sharples
%A Angela Clucas
%A Barry Drust
%A Chris Mawhinney
%A Hannah F. Dugdale
%A James P. Morton
%A John Dutton
%A Matthew Cocks
%A Robert Allan
%A Warren Gregson
%A Will Hawkins
%J Archive of "Physiological Reports".
%D 2019
%R 10.14814/phy2.14082
%X We assessed the effects of post©\exercise cold©\water immersion (CWI) in modulating PGC©\1¦Á mRNA expression in response to exercise commenced with low muscle glycogen availability. In a randomized repeated©\measures design, nine recreationally active males completed an acute two©\legged high©\intensity cycling protocol (8 ¡Á 5 min at 82.5% peak power output) followed by 10 min of two©\legged post©\exercise CWI (8¡ãC) or control conditions (CON). During each trial, one limb commenced exercise with low (LOW: <300 mmol¡¤kg£¿1 dw) or very low (VLOW: <150 mmol¡¤kg£¿1 dw) pre©\exercise glycogen concentration, achieved via completion of a one©\legged glycogen depletion protocol undertaken the evening prior. Exercise increased (P < 0.05) PGC©\1¦Á mRNA at 3 h post©\exercise. Very low muscle glycogen attenuated the increase in PGC©\1¦Á mRNA expression compared with the LOW limbs in both the control (CON VLOW ~3.6©\fold vs. CON LOW ~5.6©\fold: P = 0.023, ES 1.22 Large) and CWI conditions (CWI VLOW ~2.4©\fold vs. CWI LOW ~8.0 fold: P = 0.019, ES 1.43 Large). Furthermore, PGC©\1¦Á mRNA expression in the CWI©\LOW trial was not significantly different to the CON LOW limb (P = 0.281, ES 0.67 Moderate). Data demonstrate that the previously reported effects of post©\exercise CWI on PGC©\1¦Á mRNA expression (as regulated systemically via ¦Â©\adrenergic mediated cell signaling) are offset in those conditions in which local stressors (i.e., high©\intensity exercise and low muscle glycogen availability) have already sufficiently activated the AMPK©\PGC©\1¦Á signaling axis. Additionally, data suggest that commencing exercise with very low muscle glycogen availability attenuates PGC©\1¦Á signaling
%K Carbohydrate
%K cooling
%K skeletal muscle
%K training adaptation
%U https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6546967/