GABAA-Coupled Cl-/ HCO3--ATPase from Plasma Membrane of the Rat Brain: Role of HCO3- in the Enzyme Activation

酶研究进展(英文) Pub Date : 2015-03-02 DOI:10.4236/AER.2015.31002

S. Menzikov, M. Karpova, L. Kuznetsova, N. Klishina

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引用次数: 2

Abstract

This work examines the influence of Cl- (2.5 - 125 mM) and HCO3- (2 - 30 mM) on the Cl-/HCO3- - ATPase complex of the neuronal membrane and this enzyme is a Cl--pump that is coupled to GABAA receptors. The greatest (44%) activating effect on the enzyme is found with HCO3- (20 - 30 mM), while the maximum activity occurs in the presence of a ratio of ~25 mM HCO3- /~5mM Cl-. Blockers of the GABAA receptor, namely bicuculline (10 - 50 μM) and picrotoxin (50 - 100 μM), inhibit this anion activation, whereas the HCO3- -ATPase activity is not sensitive to these ligands. Autoradiographic analysis of the spectrum of the partially purified enzyme phosphorylated with [γ-32P]ATP allowed us to distinguish three major 32P-labeled protein whose molecular weight are about 57, 53, and 48 kDa. In the presence of 5 mM Cl-/25mM HCO3- and 100 μM picrotoxin, the intensity of the phosphorylation of bands significantly decreased, thereby confirming the assumption about coupled of binding sites for anions and GABAA-ergic ligands. It was suggested scheme of Cl--transport through the plasma membrane by utilizing neuronal Cl-/ -HCO3- ATPase in the low (5 mM) Cl- and high (25 mM) HCO3- concentrations. The data demonstrated for the first time that the GABAA-coupled Cl-/ HCO3- -ATPase from rat brain neuronal membranes is maximally activated at a Cl-/HCO3- ratio of 1:5 and it remains stable at high concentrations of substrate and buffer.

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大鼠脑质膜gabaa偶联Cl-/ HCO3—atp酶:HCO3-在酶激活中的作用

本研究考察了Cl- (2.5 - 125 mM)和HCO3- (2 - 30 mM)对神经元膜Cl-/HCO3- - atp酶复合物的影响，该酶是一种与GABAA受体偶联的Cl-泵。HCO3- (20 ~ 30 mM)对酶的激活效果最大(44%)，而HCO3- / Cl- (25 mM / 5mM)的激活效果最大。GABAA受体阻滞剂双管碱(10 ~ 50 μM)和微毒素(50 ~ 100 μM)可抑制这种阴离子的激活，而HCO3- - atp酶活性对这些配体不敏感。用[γ-32P]ATP磷酸化的部分纯化酶的光谱自放射分析使我们能够区分三种主要的32p标记蛋白，它们的分子量约为57、53和48 kDa。在5mM Cl-/25mM HCO3-和100 μM微毒素存在下，条带磷酸化强度显著降低，从而证实了阴离子与gabaa能配体结合位点耦合的假设。在低(5 mM) Cl-和高(25 mM) HCO3-浓度条件下，利用神经元Cl-/ -HCO3- atp酶通过质膜转运Cl-的方案被提出。本研究首次证实了gabaa偶联的Cl-/HCO3- - atp酶在Cl-/HCO3-比为1:5时被最大激活，并且在高浓度底物和缓冲液中保持稳定。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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酶研究进展(英文)

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