This study investigated exercise adaptation of signaling mechanisms that control Na(+)-K(+)-2Cl(-) cotransporter (NKCC) activity in rat skeletal muscle. An acute bout of exercise increased total and NKCC-mediated (86)Rb influx. Inhibition of extracellular signal-regulated kinase (ERK) activation abolished the exercise-induced NKCC upregulation. Treadmill training (20 m/min, 20% grade, 30 min/day, 5 days/wk) stimulated total (86)Rb influx and increased NKCC activity in the soleus muscle after 2 wk and in the plantaris muscle after 4 wk. Exercise-induced NKCC activity was associated with a 1.4- to 2-fold increase in ERK phosphorylation. Isoproterenol, which activates ERK and NKCC in sedentary muscle, caused a remarkable inhibition of the exercise-induced NKCC activity. Furthermore, isoproterenol inhibition of exercise-induced NKCC activity was accompanied with decreased ERK phosphorylation in the plantaris muscle. Akt (protein kinase B) phosphorylation on both Thr(308) and Ser(473), which activates Akt and inhibits NKCC activity in sedentary muscle, was stimulated by acute and chronic exercise. This Akt activation was unaffected by isoproterenol. These results indicate an immediate and persistent exercise adaptation of the signal pathways that participate in the control of potassium transport.
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