大鼠垂体前叶巨克隆细胞中内向整流钾电流及其受促甲状腺激素释放激素的调节
The erg inwardly rectifying K+ current and its modulation by thyrotrophin-releasing hormone in giant clonal rat anterior pituitary cells.
作者信息
Bauer C K
机构信息
Physiologisches Institut, Universitatskrankenhaus Eppendorf, Martinistrasse 52, D-20246 Hamburg, Germany.
出版信息
J Physiol. 1998 Jul 1;510 ( Pt 1)(Pt 1):63-70. doi: 10.1111/j.1469-7793.1998.063bz.x.
Abstract
- The voltage-dependent inwardly rectifying K+ current (IK,IR) of clonal rat anterior pituitary cells (GH3/B6) was investigated in solutions with physiological K+ gradient using giant polynuclear cells. 2. IK,IR was isolated by the use of the selective erg (ether-à-go-go-related gene) channel blocker E-4031. In external 5 mM K+ solution, IK,IR carried steady-state outward current in the potential range between -60 and 0 mV, with a maximum current amplitude at -40 mV. Negative to the K+ equilibrium potential, EK, large transient inward currents occurred. 3. A selective pharmacological block of IK,IR induced a sustained depolarization of the membrane potential when Ca2+ action potentials were blocked, confirming the contribution of IK,IR to the resting membrane potential of GH3/B6 cells. 4. Thyrotrophin-releasing hormone (TRH) reduced effectively the sustained outward and the transient inward IK,IR. The magnitude of a TRH-induced depolarization of the membrane potential was consistent with an almost complete reduction of IK,IR. 5. The results demonstrate that the TRH-induced reduction of IK,IR is able to mediate the resting potential depolarization, suggesting that the increase in the frequency of action potentials occurring during the second phase of the TRH response in GH cells should be sustained by IK,IR inhibition. Moreover, this is the first evidence of a ligand-induced physiological modulation of an erg-mediated current.
摘要
- 使用多核巨细胞,在具有生理钾离子梯度的溶液中研究了克隆大鼠垂体前叶细胞(GH3/B6)的电压依赖性内向整流钾电流(IK,IR)。2. 通过使用选择性的erg(醚-去-去相关基因)通道阻滞剂E-4031分离出IK,IR。在外部5 mM钾离子溶液中,IK,IR在-60至0 mV的电位范围内携带稳态外向电流,在-40 mV时电流幅度最大。在钾离子平衡电位EK负值时,出现大的瞬时内向电流。3. 当钙离子动作电位被阻断时,IK,IR的选择性药理学阻断诱导膜电位持续去极化,证实了IK,IR对GH3/B6细胞静息膜电位的贡献。4. 促甲状腺激素释放激素(TRH)有效地降低了IK,IR的持续外向电流和瞬时内向电流。TRH诱导的膜电位去极化幅度与IK,IR几乎完全降低一致。5. 结果表明,TRH诱导的IK,IR降低能够介导静息电位去极化,提示在GH细胞中TRH反应第二阶段发生的动作电位频率增加应由IK,IR抑制来维持。此外,这是配体诱导的erg介导电流生理调节的首个证据。
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