绵羊红细胞中的核苷转运:遗传控制的转运变异及其对红细胞ATP浓度的影响。
Nucleoside transport in sheep erythrocytes: genetically controlled transport variation and its influence on erythrocyte ATP concentrations.
作者信息
Young J D
出版信息
J Physiol. 1978 Apr;277:325-39. doi: 10.1113/jphysiol.1978.sp012274.
Abstract
- The permeability of sheep erythrocytes to purine and pyrimidine nucleosides was investigated. Erythrocytes from most sheep (nucleoside-impermeable) were almost completely impermeable to 5 mM inosine whereas cells from approximately 5% of the animals studied (nucleoside-permeable) showed a rapid inosine uptake. Cells from both types of animal were permeable to 5 mM adenosine, although transport was slower in nucleoside-impermeable erythrocytes. 2. Two distinct nucleoside transport routes were present in nucleoside-permeable erythrocytes; a high affinity (apparent Km congruent to 0.2 mM) facilitated diffusion system which transported both purine and pyrimidine nucleosides, and a non-saturable uptake route selective for adenosine. The high affinity system was the major route of adenosine transport at physiological concentrations. 3. Transport by the high affinity system was completely inhibited by micromolar concentrations of dipyridamole and nitrobenzylthioinosine. Dipyridamole had no effect on the non-saturable component of adenosine uptake. 4. The transport differences between nucleoside-permeable and impermeable erythrocytes were due to the absence of the high affinity system from nucleoside-impermeable cells. 5. Nucleoside-permeable cells had a higher intracellular ATP concentration than nucleoside-impermeable erythrocytes, suggesting that the high affinity transport system participates in the energy metabolism of the cell.
摘要
- 研究了绵羊红细胞对嘌呤和嘧啶核苷的通透性。大多数绵羊的红细胞(核苷不透性)对5 mM肌苷几乎完全不透,而在所研究动物中约5%的动物的细胞(核苷透性)显示出快速摄取肌苷。两种类型动物的细胞对5 mM腺苷均有通透性,尽管核苷不透性红细胞中的转运较慢。2. 核苷透性红细胞中存在两种不同的核苷转运途径;一种高亲和力(表观Km约为0.2 mM)促进扩散系统,可转运嘌呤和嘧啶核苷,以及一种对腺苷有选择性的非饱和摄取途径。高亲和力系统是生理浓度下腺苷转运的主要途径。3. 高亲和力系统的转运完全被微摩尔浓度的双嘧达莫和硝基苄硫基肌苷抑制。双嘧达莫对腺苷摄取的非饱和成分没有影响。4. 核苷透性和不透性红细胞之间的转运差异是由于核苷不透性细胞中不存在高亲和力系统。5. 核苷透性细胞的细胞内ATP浓度高于核苷不透性红细胞,表明高亲和力转运系统参与细胞的能量代谢。
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