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佛波酯和冈田酸对镰状细胞中脱氧诱导的膜蛋白去磷酸化和细胞脱水的抑制作用

Inhibition of deoxygenation-induced membrane protein dephosphorylation and cell dehydration by phorbol esters and okadaic acid in sickle cells.

作者信息

Fathallah H, Coezy E, de Neef R S, Hardy-Dessources M D, Giraud F

机构信息

Laboratoire de Biomembranes et Messagers Cellulaires, Université Paris XI, Orsay, France.

出版信息

Blood. 1995 Sep 1;86(5):1999-2007.

PMID:7655027
Abstract

Deoxygenation (DO) of sickle cell anemia red blood cells (SS cells) induces membrane permeabilization to Ca2+, Na+, and K+ and cell dehydration mostly through the activation of the Ca(2+)-dependent K+ channels. We show that DO of both SS cells and normal red blood cells was accompanied by a nonspecific dephosphorylation of membrane proteins. After treatment with a protein kinase C activator (phorbol myristate acetate) or a phosphoprotein phosphatase inhibitor (okadaic acid), the level of membrane protein phosphorylation in deoxygenated cells was maintained higher or equal, respectively, to that of the oxygenated controls. We found that these drugs in SS cells (1) inhibited by 40% the DO-stimulated net Ca2+ uptake, without affecting the DO-stimulated Ca2+ influx, suggesting that they activated the Ca2+ efflux; (2) slightly increased the DO-induced Na+ uptake and decreased the DO-induced K+ loss; and (3) prevented the DO-induced cell dehydration. Both drugs are known to stimulate both phosphorylation and activity of the Ca pump and of the Na/H antiport. Inhibition of SS cell dehydration might be due to an activation of the Ca pump preventing [Ca2+]i elevation responsible for the stimulation of the K+ channels and/or to an activation of the Na/H exchange resulting in cell water gain.

摘要

镰状细胞贫血红细胞(SS细胞)的脱氧(DO)会诱导细胞膜对Ca2+、Na+和K+的通透性增加以及细胞脱水,这主要是通过激活Ca(2+)依赖性K+通道实现的。我们发现,SS细胞和正常红细胞的DO均伴随着膜蛋白的非特异性去磷酸化。在用蛋白激酶C激活剂(佛波醇肉豆蔻酸酯乙酸盐)或磷酸蛋白磷酸酶抑制剂(冈田酸)处理后,脱氧细胞中膜蛋白磷酸化水平分别维持在高于或等于氧合对照的水平。我们发现,这些药物在SS细胞中:(1)抑制了40%的DO刺激的净Ca2+摄取,而不影响DO刺激的Ca2+内流,这表明它们激活了Ca2+外流;(2)略微增加了DO诱导的Na+摄取并减少了DO诱导的K+丢失;(3)防止了DO诱导的细胞脱水。已知这两种药物都会刺激Ca泵和Na/H反向转运体的磷酸化和活性。抑制SS细胞脱水可能是由于Ca泵的激活阻止了导致K+通道激活的[Ca2+]i升高和/或由于Na/H交换的激活导致细胞水分增加。

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