Comparison of Accumulative Inactivation between the Aplysia K^+ Channel (AKv1.1a) and Its Amino-Terminal Deletion Mutant
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概要
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Accumulative inactivation of a cloned Aplysia K^+ channel (AKv1.1a) was examined in Xenopus oocyte expression system by the patch clamp technique. AKv1.1a inactivates by both N-type and C-type mechanisms. The amino-terminal domain of the channel is indispensable for N-type inactivation, whereas other parts of the channel is involved in C-type inactivation. The accumulative inactivation induced by repetitive pulses (0.2-0.5 Hz) was relatively insensitive to the pulse duration (10-900 msec). The accumulative inactivation was inhibited when the external K^+ concentration ([K^+]_<out>) was increased, or when tetraethylammonium (TEA) was added in the external solution. The accumulative inactivation of the amino-terminal deletion mutant (△N) which lacks N-type inactivation was dependent on the pulse duration such that it was less pronounced for short repetitive pulses (<100 msec). The accumulative inactivation of △N was also inhibited by high [K^+]_<out> and external TEA. By contrast, the accumulative inactivation induced by pair-pulse protocol was not perturbed by external TEA, and was not observed in △N. The accumulative inactivation of AKv1.1a was enhanced when the membrane patch was excised out of the cell. Paradoxically, the macroscopic inactivation of AKv1.1a became slower in the excised patch. The accumulative inactivation of △N was less sensitive to the patch excision. Some synthetic peptides which were designed based on the amino-terminal sequences of K^+ channels induced a use-dependent block of △N which was apparently similar to the inactivation of AKv1.1a. Our results suggest that either N-type or C-type inactivation can induce the accumulative inactivation of K^+ channels, and that C-type inactivation coupled to N-type inactivation plays substantial roles in the frequency dependent accumulative inactivation of AKv1.1a.
- 社団法人日本動物学会の論文
著者
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Furukawa Yasuo
Laboratory Of Brain Science Faculty Of Integrated Arts And Sciences Hiroshima University
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Furukawa Yasuo
Laboratory Of Adaptation Physiology And Neurobiology Department Of Biological Science Faculty Of Sci
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Takahashi Toshio
Physiological Laboratory, Faculty of Integrated Arts and Sciences, Hiroshima University
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Takahashi Toshio
Physiological Laboratory Faculty Of Integrated Arts And Sciences Hiroshima University
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- Comparison of Accumulative Inactivation between the Aplysia K^+ Channel (AKv1.1a) and Its Amino-Terminal Deletion Mutant
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