Bourne P K, Cossins A R
J Physiol. 1984 Feb;347:361-75. doi: 10.1113/jphysiol.1984.sp015070.
The principal pathways of Na+ and K+ transport in trout erythrocytes have been characterized. Approximately 50% of K+ influx in steady-state erythrocytes was inhibited by ouabain (1 mM) and 46% by furosemide (1 mM). Furosemide-sensitive K+ influx was a saturable function of external K+ concentration with a Km of 25 mM. This flux component was also inhibited by SITS (4-acetamido-4'-isothiocyanatostilbene-2'2-disulphonate) (concentration required for 50% inhibition, I50 = 7.6 X 10(-6)M) and by the removal of external Cl-. An increase in cell volume stimulated furosemide-sensitive K+ influx and cell shrinkage inhibited this flux. K+ efflux was mainly furosemide-sensitive (64% of total). This pathway was unaffected by variations in extracellular K+ concentration and is therefore not exchange diffusion. However, it was affected by variations in cell volume in a similar way to the furosemide-sensitive K+ influx. Na+ influx was only slightly sensitive to furosemide (13% of total) but this component was very sensitive to changes in cell volume; decreased cell volume increased Na+ influx whilst increased cell volume inhibited Na+ influx. Furosemide-sensitive K+ influx was unaffected by variations in external Na+ concentration. Similarly, furosemide-sensitive Na+ influx was unaffected by variations in external K+ concentration. This indicates that the passive influxes of Na+ and K+ were not coupled, in contrast to the situation in avian erythrocytes. The opposite effects of cell volume upon passive Na+ and K+ fluxes are in good agreement with the net movements of these cations during volume regulation in erythrocytes of the flounder (Cala, 1977) and the toadfish (Lauf, 1982).
虹鳟鱼红细胞中钠和钾运输的主要途径已得到明确。在稳态红细胞中,约50%的钾流入被哇巴因(1 mM)抑制,46%被呋塞米(1 mM)抑制。呋塞米敏感的钾流入是外部钾浓度的饱和函数,Km为25 mM。该通量成分也被SITS(4-乙酰氨基-4'-异硫氰酸基芪-2'2-二磺酸盐)(50%抑制所需浓度,I50 = 7.6×10(-6)M)以及去除外部氯离子所抑制。细胞体积增加刺激了呋塞米敏感的钾流入,而细胞收缩则抑制了这种通量。钾流出主要对呋塞米敏感(占总量的64%)。该途径不受细胞外钾浓度变化的影响,因此不是交换扩散。然而,它受细胞体积变化的影响方式与呋塞米敏感的钾流入相似。钠流入对呋塞米仅略有敏感(占总量的13%),但该成分对细胞体积变化非常敏感;细胞体积减小增加钠流入,而细胞体积增加则抑制钠流入。呋塞米敏感的钾流入不受外部钠浓度变化的影响。同样,呋塞米敏感的钠流入也不受外部钾浓度变化的影响。这表明与鸟类红细胞的情况相反,钠和钾的被动流入没有耦合。细胞体积对被动钠和钾通量的相反影响与比目鱼(卡拉,1977年)和蟾鱼(劳夫,1982年)红细胞体积调节过程中这些阳离子的净移动情况高度一致。