Pharmakologisches Institut, Universität Mainz, Germany.
J Membr Biol. 1970 Dec;2(1):324-40. doi: 10.1007/BF01869868.
The passive Ca efflux from human red cell ghosts was studied in media of differing ion compositions and compared to the ATP-dependent Ca efflux. Cells were loaded with(45)Ca during reversible hemolysis, and the loss of radioactivity into the non-radioactive incubation medium was measured, usually for 3 hr at 37°C. Analysis of the efflux curves revealed that(45)Ca efflux followed the kinetics of a simple two-compartment system. In the concentration range between 0 and 1MM Ca in the external solution ([Ca(++)] o ), the rate constant of passive Ca efflux (k min(-1), fraction of(45)Ca lost per minute into the medium) increased from 0.00732 to 0.0150 min(-1). There was no further increase at higher [Ca(++)] o . The relation between the rate constant of Ca efflux and [Ca(++)] o is thus characterized by saturation kinetics. The passive transfer system for Ca could also be activated by Sr. The alkali metal ions Na, K and Li did not seem to have any significant influence on passive Ca transfer. The passive Ca efflux was slightly inhibited by Mg and strongly inhibited by Pb. Under most experimental conditions, a fraction of 15 to 50% of the intracellular Ca seemed to be "inexchangeable". The inexchangeable fraction decreased with increasing [Ca(++)] o and increased with increasing [Ca(++)] i . It was not influenced by alkali metal ions, CN or Pb, but it could be completely removed from the cells by the addition of 0.1MM Mersalyl to the incubation medium or by hemolysis with addition of a detergent. The active ATP-dependent Ca transport differed characteristically from passive transfer; the rate constant decreased with increasing [Ca(++)] o , and the inexchangeable Ca fraction increased with increasing [Ca(++)] o . The experimental results suggest that there exists a carrier-mediated Ca-Ca exchange diffusion in the erythrocyte membrane and that only a fraction of the ghost cell population participates in the Ca exchange diffusion.
研究了人红细胞胞影中 Ca2+ 的被动外流,并与 ATP 依赖的 Ca2+ 外流进行了比较。细胞在可逆溶血过程中用(45)Ca 标记,测量放射性在非放射性孵育介质中的损失,通常在 37°C 下进行 3 小时。对流出曲线的分析表明,(45)Ca 流出遵循简单的双室系统动力学。在外部溶液中 Ca2+ 浓度范围为 0 到 1mM([Ca(++)]o)时,被动 Ca2+ 流出的速率常数(kmin(-1),每分钟进入介质的(45)Ca 丢失分数)从 0.00732 增加到 0.0150min(-1)。在更高的[Ca(++)]o时没有进一步增加。因此,Ca 流出的速率常数与[Ca(++)]o之间的关系表现出饱和动力学特征。Ca 的被动传递系统也可以被 Sr 激活。碱金属离子 Na、K 和 Li 似乎对被动 Ca 传递没有任何显著影响。Mg 轻微抑制被动 Ca 转移,而 Pb 强烈抑制。在大多数实验条件下,细胞内 Ca 的 15%至 50%似乎是“不可交换的”。不可交换的分数随[Ca(++)]o 的增加而减少,随[Ca(++)]i的增加而增加。它不受碱金属离子、CN 或 Pb 的影响,但可以通过向孵育介质中添加 0.1mM mersalyl 或通过添加去污剂进行溶血,从细胞中完全去除。主动的 ATP 依赖的 Ca 转运与被动转运有明显的不同;速率常数随[Ca(++)]o的增加而降低,不可交换的 Ca 分数随[Ca(++)]o的增加而增加。实验结果表明,红细胞膜中存在一种载体介导的 Ca-Ca 交换扩散,只有一部分胞影细胞参与 Ca 交换扩散。
