Stationary Outward and Transient $Ca^{2+}-Dependent$ Currents in Hamster Oocytes

  • Kim, Yang-Mi (Department of Physiology, Seoul National University College of Medicine) ;
  • Han, Jae-Hee (Department of Physiology, College of Medicine, Gyeongsang National University, Department of Physiology, Seoul National University College of Medicine) ;
  • Kim, Jong-Su (Department of Pharmacology, College of Veterinary Medicine, Gyeongsang National University) ;
  • Hong, Seong-Geun (Department of Physiology, College of Medicine, Gyeongsang National University, Department of Physiology, Seoul National University College of Medicine)
  • 발행 : 2000.10.21

초록

The outward currents elicited in hamster eggs by depolarizing pulses were studied. The currents appeared to comprise at least two components, a transient outward component $(I_{to})$ and a steady-state outward component $(I_{\infty}).\;I_{to}$ was transiently followed by the cessation of inward $Ca^{2+}$ current $(I_{Ca}),$ and its current-voltage (I-V) relation was a mirror image of that of $(I_{Ca}).$ Either blockade of $(I_{Ca})$ by $Co^{2+}$ or replacement of $Ca^{2+}$ with $Sr^{2+}$ abolished $I_{to}$ without change in $I_{\infty}.$ Intracellular EGTA (10 mM) inhibited $I_{to}$ but not $I_{\infty}.$ suggesting strongly that generation of $I_{to}$ requires intracellular $Ca^{2+}.$ Apamin (1 nM) abolished selectively $I_{to},$ indicatingthat $I_{to}$ is $Ca^{2+}-dependent\;K^+$ current. On the other hand, $I_{\infty}$ was $Ca^{2+}-independent.$ Both $I_{to}$ and $I_{\infty}$ were completely inhibited by internal $Cs^+$ and external TEA. The estimated reversal potential of $I_{to}$ was close to the theoretical $E_K.$ Taken together, both outward currents were carried by $K^+$ channels. From these results, $I_{to}$ is likely to be a current responsible for the hyperpolarizing responses seen in hamster eggs at fertilization.

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