二价阴离子诱导锂、钠和钾跨人红细胞膜进行阴离子阳离子转运的证据。
Evidence for anionic cation transport of lithium, sodium and potassium across the human erythrocyte membrane induced by divalent anions.
作者信息
Becker B F, Duhm J
出版信息
J Physiol. 1978 Sep;282:149-68. doi: 10.1113/jphysiol.1978.sp012454.
Abstract
- The passive net transport of Li+ and Na+ across the human red cell membrane was accelerated by the divalent anions carbonate, sulphite, oxalate, phosphite and malonate. Phthalate, maleate, sulphate and succinate were found additionally to stimulate downhill transport of K+. Marked differences in anion efficacy and selectivity were observed. 2. The effects of these 'carbonate type' anions were reversible and fully blocked by SITS, dipyridamole and other inhibitors of anion transfer. 3. Cation transport acceleration induced by the monovalent anions salicylate, benzoate, thiocyanate and 2,4-dinitrophenol were inhibited by dipyridamole, but not affected by SITS. A great number of mono- and polyvalent anions were without detectable influence on Li+ transport. 4. Li+ net uptake induced by oxalate exhibited a pH dependence similar to that reported for halide self exchange. 5. Transport acceleration by carbonate type anions displayed a linear, 1:1 dependence on the concentrations of both the anion and the cation and was symmetric with respect to the two sides of the membrane. 6. It is concluded that the divalent carbonate type anions form singly charged, negative 1:1 ion pairs with the respective alkali metal cations, the ion pairs traversing the red cell membrane via the anion exchange pathway. This concept of anionic formation of some of the ion pairs considered. The relative efficacies and cation selectivities of polyvalent anions can largely be explained on the basis of electrostatic interactions governing ion pair formation. However, the chelating properties, structural flexibility, polarizability of the anions and the accessibility of the ion pairs to the anion exchange pathway need also be considered. 7. An exchange of NaCO-3 ion pairs for internal HCO-3 or Cl- is discussed as a possible mode of cellular pH regulation.
摘要
- 碳酸根、亚硫酸根、草酸根、亚磷酸根和丙二酸根等二价阴离子可加速锂离子和钠离子在人红细胞膜上的被动净转运。此外,邻苯二甲酸根、马来酸根、硫酸根和琥珀酸根可刺激钾离子的下坡转运。观察到阴离子的功效和选择性存在显著差异。2. 这些“碳酸根类型”阴离子的作用是可逆的,并被SITS、双嘧达莫和其他阴离子转运抑制剂完全阻断。3. 水杨酸根、苯甲酸根、硫氰酸根和2,4-二硝基苯酚等一价阴离子诱导的阳离子转运加速被双嘧达莫抑制,但不受SITS影响。大量的一价和多价阴离子对锂离子转运没有可检测到的影响。4. 草酸根诱导的锂离子净摄取表现出与卤化物自交换报道相似的pH依赖性。5. 碳酸根类型阴离子引起的转运加速对阴离子和阳离子的浓度呈线性的1:1依赖性,并且相对于膜的两侧是对称的。6. 得出的结论是,二价碳酸根类型阴离子与相应的碱金属阳离子形成单电荷的负1:1离子对,这些离子对通过阴离子交换途径穿过红细胞膜。考虑了一些离子对的阴离子形成概念。多价阴离子的相对功效和阳离子选择性在很大程度上可以基于控制离子对形成的静电相互作用来解释。然而,阴离子的螯合性质、结构灵活性、极化率以及离子对与阴离子交换途径的可及性也需要考虑。7. 讨论了用NaCO₃离子对交换内部的HCO₃⁻或Cl⁻作为细胞pH调节的一种可能模式。
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Influence of 2,3-diphosphoglycerate metabolism on sodium-potassium permeability in human red blood cells: studies with bisulfite and other redox agents.2,3-二磷酸甘油酸代谢对人红细胞钠钾通透性的影响:亚硫酸氢盐及其他氧化还原试剂的研究
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