Fugelli K, Thoroed S M
J Physiol. 1986 May;374:245-61. doi: 10.1113/jphysiol.1986.sp016077.
The taurine transport of flounder erythrocytes is associated with a cell volume regulation in anisosmotic media. An osmolality reduction leads to a cell volume increase, which is followed by a volume readajustment towards the original level. A 75 mosM reduction is accompanied by a 33 mumol g dry wt.-1 reduction in the cellular taurine content. The reduction in osmolality activates the taurine release mechanism by transiently increasing the rate coefficient for taurine efflux. The rate coefficient for taurine influx is similarly stimulated. This influx is mediated by a Na+-independent transport system. The concomitant activation of influx and efflux suggests a coupling between these two systems. Higher taurine efflux and influx rate coefficients which decayed more slowly with time were measured in cells suspended in Na+-free (choline replacement) media than in the presence of Na+. This suggests that Na+ may play a role in the taurine release mechanism. Noradrenaline induced a cellular swelling at normal osmolality (330 mosM), but had only a minor effect on the taurine efflux and influx and the cellular taurine content. Urea-induced cellular swelling at normal osmolality initiated a volume regulatory process and activated the taurine release mechanism, similarly to an osmolality reduction. These results show that osmolality reduction and cellular swelling are no prerequisites for the activation of the taurine release mechanism and the cell volume readajustment. It is suggested that the dimension of an intracellular solute compartment determines the activation level of this mechanism.
比目鱼红细胞的牛磺酸转运与异渗介质中的细胞体积调节相关。渗透压降低会导致细胞体积增加,随后体积会重新调整至原始水平。渗透压降低75 mosM会伴随着细胞牛磺酸含量减少33 μmol g干重-1。渗透压降低通过短暂增加牛磺酸外流的速率系数来激活牛磺酸释放机制。牛磺酸内流的速率系数也受到类似刺激。这种内流由一个不依赖Na+的转运系统介导。内流和外流的同时激活表明这两个系统之间存在偶联。与存在Na+的情况相比,在无Na+(用胆碱替代)介质中悬浮的细胞中测得的牛磺酸外流和内流速率系数更高,且随时间衰减更慢。这表明Na+可能在牛磺酸释放机制中起作用。去甲肾上腺素在正常渗透压(330 mosM)下会引起细胞肿胀,但对牛磺酸外流、内流及细胞牛磺酸含量的影响较小。尿素在正常渗透压下诱导的细胞肿胀启动了体积调节过程并激活了牛磺酸释放机制,这与渗透压降低的情况类似。这些结果表明,渗透压降低和细胞肿胀并非激活牛磺酸释放机制及细胞体积重新调整的先决条件。有人提出,细胞内溶质区室的大小决定了该机制的激活水平。