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去甲肾上腺素对鸭红细胞肿胀诱导的钾转运的影响。反对生理条件下体积调节性降低的证据。

Effect of norepinephrine on swelling-induced potassium transport in duck red cells. Evidence against a volume-regulatory decrease under physiological conditions.

作者信息

Haas M, McManus T J

出版信息

J Gen Physiol. 1985 May;85(5):649-67. doi: 10.1085/jgp.85.5.649.

Abstract

Duck red cells exhibit specific volume-sensitive ion transport processes that are inhibited by furosemide, but not by ouabain. Swelling cells in a hypotonic synthetic medium activates a chloride-dependent, but sodium-independent, potassium transport. Shrinking cells in a hypertonic synthetic medium stimulates an electrically neutral co-transport of [Na + K + 2 Cl] with an associated 1:1 K/K (or K/Rb) exchange. These shrinkage-induced modes can also be activated in both hypo- and hypertonic solutions by beta-adrenergic catecholamines (e.g., norepinephrine). Freshly drawn cells spontaneously shrink approximately 4-5% when removed from the influence of endogenous plasma catecholamines, either by incubation in a catecholamine-free, plasma-like synthetic medium, or in plasma to which a beta-receptor blocking dose of propranolol has been added. This spontaneous shrinkage resembles the response of hypotonically swollen cells in that it is due to a net loss of KCl with no change in cell sodium. Norepinephrine abolishes the net potassium transport seen in both fresh and hypotonically swollen cells. Moreover, cells swollen in diluted plasma, at physiological pH and extracellular potassium, show no net loss of KCl and water ("volume-regulatory decrease") unless propranolol is added. Examination of the individual cation fluxes in the presence of catecholamines demonstrates that activation of [Na + K + 2Cl] co-transport with its associated K/Rb exchange prevents, or overrides, swelling-induced [K + Cl] co-transport. These results, therefore, cast doubt on whether the swelling-induced [K + Cl] system can serve a volume-regulatory function under in vivo conditions.

摘要

鸭红细胞表现出特定的对体积敏感的离子转运过程,这些过程可被呋塞米抑制,但不受哇巴因抑制。在低渗合成培养基中肿胀的细胞会激活一种依赖于氯化物但不依赖于钠的钾转运。在高渗合成培养基中收缩的细胞会刺激[Na + K + 2Cl]的电中性协同转运,并伴有1:1的K/K(或K/Rb)交换。这些由收缩诱导的模式在低渗和高渗溶液中也可被β-肾上腺素能儿茶酚胺(如去甲肾上腺素)激活。当从内源性血浆儿茶酚胺的影响中移除时,无论是通过在无儿茶酚胺的血浆样合成培养基中孵育,还是在添加了β受体阻断剂量普萘洛尔的血浆中孵育,新抽取的细胞会自发收缩约4 - 5%。这种自发收缩类似于低渗肿胀细胞的反应,因为它是由于KCl的净损失且细胞钠无变化所致。去甲肾上腺素消除了新鲜细胞和低渗肿胀细胞中可见的净钾转运。此外,在生理pH值和细胞外钾浓度下,在稀释血浆中肿胀的细胞,除非添加普萘洛尔,否则不会出现KCl和水的净损失(“体积调节性减少”)。在儿茶酚胺存在的情况下对单个阳离子通量的检测表明,[Na + K + 2Cl]协同转运及其相关的K/Rb交换的激活会阻止或克服肿胀诱导的[K + Cl]协同转运。因此,这些结果使人怀疑在体内条件下肿胀诱导的[K + Cl]系统是否能发挥体积调节功能。

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本文引用的文献

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