The currents were elicited using 50-ms-long depolarizing voltage

The currents were elicited using 50-ms-long depolarizing voltage step pulses to between −20 mV and +50 mV from the holding potential of −70 mV (Fig. 2A). As shown by the control trace in Fig. 2A, see more the activation time constant became smaller as depolarization became stronger. (+)MK801 had little effect on the activation time

course of the Kv-channel currents. The activation time constants for voltage steps from −20 mV to +50 mV in the presence and absence of (+)MK801 are presented in Fig. 2B. Next, we examined the effects of (+)MK801 on the inactivation time course of Kv-channel currents; the inactivation was slow, and time course of inactivation was examined during 10-s-long voltage steps to +40 mV from the holding potential of −70 mV (Fig. 2C). The traces in Fig. 2C shows representative inactivation time courses in the presence and absence of (+)MK801. (+)MK801 substantially accelerated the slow inactivation time course of Kv-channel currents in a concentration-dependent manner (Fig. 2C & D). We examined whether (+)MK801 inhibited Kv-channel currents in RMASMCs in a use-dependent manner. We applied 20 repetitive 125-ms depolarizing step pulses to +40 mV from a holding potential of −70 mV at two frequencies,

1 and 2 Hz. Use dependence was tested after (+)MK801 had steadily inhibited the currents. Fig. 3A shows representative, superimposed current traces under control conditions and in the presence of 300 μM (+)MK801. The results are summarized in Fig. 3B. The Kv-channel current amplitude decreased progressively BLU9931 supplier during ADAMTS5 the repetitive depolarizing pulses. The Libraries progressive decrease in peak current amplitude was slightly more dominant in the presence of 100 and 300 μM (+)MK801 (Fig. 3B). The trains of repetitive voltage steps are frequently used to examine the use and/or state dependency of ion channel blockage. Although the data shown in Fig. 3 suggest partial use-dependent inhibition of Kv-channel currents by

(+)MK801, the disparity in the progressive decrease of currents in the absence and presence of (+)MK801 was extremely small. Moreover, the slow inactivation of the Kv-channel current shown in Fig. 2 may be reflected cumulatively during the 20 repetitive 125-ms depolarizing step pulses. To address the above possibility, we examined the inhibition by the first depolarizing voltage steps after (+)MK801 treatment and compared it with the steady-state inhibition. Because a small fraction of the channels may have been spontaneously active or inactive at the holding potential of −70 mV and (+)MK801 might have bound these channels, we clamped the RMASMCs at −110 mV before and during (+)MK801 application without the depolarizing voltage steps (Fig. 4).

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