哇巴因对人红细胞抑制作用的动力学及铷内流的分配

The kinetics of ouabain inhibition and the partition of rubidium influx in human red blood cells.

作者信息

Beauge L A, Adragna N

出版信息

J Gen Physiol. 1971 May;57(5):576-92. doi: 10.1085/jgp.57.5.576.

DOI:10.1085/jgp.57.5.576

PMID:5553102

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2203117/

Abstract

IN THE DEVELOPMENT OF OUABAIN INHIBITION OF RUBIDIUM INFLUX IN HUMAN RED BLOOD CELLS A TIME LAG CAN BE DETECTED WHICH IS A FUNCTION OF AT LEAST THREE VARIABLES

the concentrations of external sodium, rubidium, and ouabain. The inhibition is antagonized by rubidium and favored by sodium. Similar considerations could be applied to the binding of ouabain to membrane sites. The total influx of rubidium as a function of external rubidium concentration can be separated into two components: (a) a linear uptake not affected by external sodium or ouabain and not requiring an energy supply, and (b) a saturable component. The latter component, on the basis of the different effects of the aforementioned factors, can be divided into three fractions. The first is ouabain-sensitive, inhibited by external sodium at low rubidium, and requires an energy supply; this represents about 70-80% of the total uptake and is related to the active sodium extrusion mechanism. The second is ouabain-insensitive, activated by external sodium over the entire range of rubidium concentrations studied, and dependent on internal ATP; this represents about 15% of the total influx; it could be coupled to an active sodium extrusion or belong to a rubidium-potassium exchange. The third, which can be called residual influx, is ouabain-insensitive, unaffected by external sodium, and independent of internal ATP; this represents about 10-20% of the total influx.

摘要

在哇巴因抑制人体红细胞铷内流的过程中，可以检测到一个时间延迟，它是至少三个变量的函数：细胞外钠、铷和哇巴因的浓度。铷可拮抗这种抑制作用，而钠则有利于这种抑制作用。类似的考虑也可应用于哇巴因与膜位点的结合。作为细胞外铷浓度函数的铷总内流可分为两个部分：(a) 一种线性摄取，不受细胞外钠或哇巴因影响，也不需要能量供应；(b) 一种可饱和成分。根据上述因素的不同影响，后一种成分可分为三个部分。第一部分对哇巴因敏感，在低铷浓度下受细胞外钠抑制，需要能量供应；这约占总摄取量的70-80%，与钠的主动外排机制有关。第二部分对哇巴因不敏感，在研究的整个铷浓度范围内受细胞外钠激活，依赖于细胞内ATP；这约占总内流的15%；它可能与钠的主动外排偶联，或属于铷-钾交换。第三部分可称为残余内流，对哇巴因不敏感，不受细胞外钠影响，且不依赖于细胞内ATP；这约占总内流的10-20%。

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