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MUSCLE CELL BIOLOGY AND CELL MOTILITY

ATP-sensitive potassium channels mediate hyperosmotic stimulation of NKCC in slow-twitch muscle

Department of Physiology, College of Medicine, University of Tennessee Health Science Center, Memphis, Tennessee 38163

Submitted 13 June 2003 ; accepted in final form 22 October 2003

In mildly hyperosmotic medium, activation of the Na⁺-K⁺-2Cl^- cotransporter (NKCC) counteracts skeletal muscle cell water loss, and compounds that stimulate protein kinase A (PKA) activity inhibit the activation of the NKCC. The aim of this study was to determine the mechanism for PKA inhibition of NKCC activity in resting skeletal muscle. Incubation of rat slow-twitch soleus and fast-twitch plantaris muscles in isosmotic medium with the PKA inhibitors H-89 and KT-5720 caused activation of the NKCC only in the soleus muscle. NKCC activation caused by PKA inhibition was insensitive to MEK MAPK inhibitors and to insulin but was abolished by the PKA stimulators isoproterenol and forskolin. Furthermore, pinacidil [an ATP-sensitive potassium (K_ATP) channel opener] or inhibition of glycolysis increased NKCC activity in the soleus muscle but not in the plantaris muscle. Preincubation of the soleus muscle with glibenclamide (a K_ATP channel inhibitor) prevented the NKCC activation by hyperosmolarity, PKA inhibition, pinacidil, and glycolysis inhibitors. In contrast, glibenclamide stimulated NKCC activity in the plantaris muscle. In cells stably transfected with the Kir6.2 subunit of the of K_ATP channel, inhibition of glycolysis activated potassium current and NKCC activity. We conclude that activation of K_ATP channels in slow-twitch muscle is necessary for activation of the NKCC and cell volume restoration in hyperosmotic conditions.

protein kinase A; glibenclamide; glycolysis; Na⁺-K⁺-2Cl^- cotransporter; Kir6.2