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腺垂体跨膜电位:细胞外钾离子浓度升高导致极性反转。

Adenohypophysial transmembrane potentials: polarity reversal by elevated external potassium ion concentration.

作者信息

Milligan J V, Kraicer J

出版信息

Science. 1970 Jan 9;167(3915):182-4. doi: 10.1126/science.167.3915.182.

Abstract

Incubation of rat adenohypophyses in potassium ion of sufficient concentration to provoke the release of several of the adenohypophysial trophic hormones produces a reversed, positive transmembrane potential in more than half the cells. This finding is consistent with a process of "stimulus-secretion coupling" in which hypothalamic releasing factors act by selective depolarization of their "target" cells. The positive potentials may be due to a prolonged preferential permeability to calcium ions triggered by an initial depolarization of the cell membrane to a threshold value by increased external potassium ion.

摘要

将大鼠腺垂体置于足够浓度的钾离子中孵育,以促使几种腺垂体促激素释放,结果发现超过半数的细胞出现反向的正跨膜电位。这一发现与“刺激 - 分泌偶联”过程一致,即下丘脑释放因子通过其“靶”细胞的选择性去极化发挥作用。正电位可能是由于细胞外钾离子增加使细胞膜初始去极化至阈值,从而引发对钙离子的长时间优先通透性所致。

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