人体红细胞中氯离子、溴离子、碘离子、硫氰酸盐和水杨酸盐转运的温度依赖性
Temperature dependence of chloride, bromide, iodide, thiocyanate and salicylate transport in human red cells.
作者信息
Dalmark M, Wieth J O
出版信息
J Physiol. 1972 Aug;224(3):583-610. doi: 10.1113/jphysiol.1972.sp009914.
Abstract
- The temperature dependence of the steady-state self-exchange of chloride between human red cells and a plasma-like electrolyte medium has been studied by measuring the rate of (36)Cl(-) efflux from radioactively labelled cells. Between 0 and 10 degrees C the rate increased by a factor of eight corresponding to an Arrhenius activation energy of 33 kcal/mole.2. The rate of chloride exchange decreased significantly in experiments where 95% of the chloride ions in cells and medium were replaced by other monovalent anions of a lyotropic series. The rate of chloride self-exchange was increasingly reduced by bromide, bicarbonate, nitrate, iodide, thiocyanate, and salicylate. The latter aromatic anion was by far the most potent inhibitor, reducing the rate of chloride self-exchange to 0.2% of the value found in a chloride medium.3. The temperature sensitivity of the chloride self-exchange was not affected significantly by the anionic inhibitors. The Arrhenius activation energies of chloride exchange were between 30 and 40 kcal/mole in the presence of the six inhibitory anions mentioned above.4. The rate of self-exchange of bromide, thiocyanate, and iodide between human red cells and media was determined after washing and labelling cells in media containing 120 mM bromide, thiocyanate, or iodide respectively. The rate of self-exchange of the three anions were 12, 3, and 0.4% of the rate of chloride self-exchange found in the chloride medium.5. The Arrhenius activation energies of the self-exchange of bromide, iodide, and thiocyanate were all between 29 and 37 kcal/mole, the same magnitude as found for the self-exchange of chloride.6. Although approximately 40% of the intracellular iodide and salicylate ions appeared to be adsorbed to intracellular proteins, the rate of tracer anion efflux followed first order kinetics until at least 98% of the intracellular anions had been exchanged.7. The self-exchange of salicylate across the human red cell membrane occurred by a different mechanism than the one utilized by the inorganic monovalent anions. The activation energy of salicylate exchange (13.2 kcal/mole) was significantly lower than that of inorganic anion exchange. Salicylate exchange increased with decreasing pH in contrast to the exchange of chloride, which decreases when pH is lowered.
摘要
通过测量放射性标记细胞中(36)Cl(-)的流出速率,研究了人体红细胞与血浆样电解质介质之间氯离子稳态自交换的温度依赖性。在0至10摄氏度之间,速率增加了8倍,对应于33千卡/摩尔的阿仑尼乌斯活化能。
在细胞和介质中95%的氯离子被同一系列的其他单价阴离子取代的实验中,氯离子交换速率显著降低。溴离子、碳酸氢根离子、硝酸根离子、碘离子、硫氰酸根离子和水杨酸根离子使氯离子自交换速率逐渐降低。后一种芳香族阴离子是迄今为止最有效的抑制剂,将氯离子自交换速率降低至在氯离子介质中所发现值的0.2%。
阴离子抑制剂对氯离子自交换的温度敏感性没有显著影响。在上述六种抑制性阴离子存在的情况下,氯离子交换的阿仑尼乌斯活化能在30至40千卡/摩尔之间。
分别在含有120 mM溴离子、硫氰酸根离子或碘离子的介质中洗涤和标记细胞后,测定了人体红细胞与介质之间溴离子、硫氰酸根离子和碘离子的自交换速率。这三种阴离子的自交换速率分别为在氯离子介质中所发现的氯离子自交换速率的12%、3%和0.4%。
溴离子、碘离子和硫氰酸根离子自交换的阿仑尼乌斯活化能均在29至37千卡/摩尔之间,与氯离子自交换的数值大小相同。
尽管细胞内约40%的碘离子和水杨酸根离子似乎吸附在细胞内蛋白质上,但示踪阴离子的流出速率遵循一级动力学,直到至少98%的细胞内阴离子被交换。
水杨酸根离子在人体红细胞膜上的自交换机制与无机单价阴离子所利用的机制不同。水杨酸根离子交换的活化能(13.2千卡/摩尔)显著低于无机阴离子交换的活化能。与氯离子交换相反,水杨酸根离子交换随pH降低而增加,氯离子交换在pH降低时减少。
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