Independent inhibition of calcineurin and K+ currents by the immunosuppressant FK-506 in rat ventricle

Abstract

FK-506 increases the cytosolic Ca2+ concentration transient in rat ventricular myocytes by prolonging the action potential through inhibition of the K+ currents I(to) and I(K) [J. Physiol. (Lond.) 501: 509-516, 1997]. Physiological and biochemical techniques were used in parallel to examine the electrophysiological mechanisms and the role of calcineurin inhibition in these effects. FK-506 prolonged the recovery of I(to) from inactivation. Thus I(to) inhibition was frequency dependent, with no decrease at 0.2 Hz (recorded at +50 mV from -70 mV) but a 40% decrease at 2.0 Hz. In contrast, inhibition of I(K) (~60%) was time and voltage independent. At 25 μM, FK- 506 (by 65%) and cyclosporin A (by 57%) inhibited calcineurin activity in myocyte extracts. However, only FK-506 increased the cytosolic Ca2+ concentration transient in field-stimulated myocytes. Furthermore, FK-506 was still active on K+ currents when cells were dialyzed with 10 mM EGTA. These results demonstrate that calcineurin inhibition is not responsible for the functional effects of FK-506 in heart and suggest that I(K) and I(to) are modulated by FK-506-binding proteins or directly by FK-506.