Lytle C, Forbush B
Mount Desert Island Biological Laboratory, Salsbury Cove, Maine 04672, USA.
Am J Physiol. 1996 Feb;270(2 Pt 1):C437-48. doi: 10.1152/ajpcell.1996.270.2.C437.
The effect of cytoplasmic Cl concentration ([Cl]i) on the activation state ([3H]benzmetanide binding rate) and phosphorylation state (32P incorporation) of the Na-K-Cl cotransporter was evaluated in secretory tubules isolated from the dogfish shark rectal gland. Reduction of [Cl]i at relatively constant cell volume (by removal of extracellular Cl or Na or by addition of bumetanide) increased cotransporter activation and phosphorylation. Raising extracellular K concentration ([K]o) from 4 to 80 mM, a maneuver that elevated [Cl]i above normal, reduced basal cotransport activity and rendered it entirely refractory to forskolin. High [K]o also blocked activation and phosphorylation in response to cell shrinkage, despite the fact that [Cl]i was already greatly elevated as a consequence of osmotic water loss. The phosphatase inhibitor calyculin A also promoted activation, but not in cells preexposed briefly to high [K]o. In summary, maneuvers than lower [Cl]i activate the cotransporter, whereas those that elevate [Cl]i (or prevent it from decreasing) block activation in response to secretory stimuli. Cell Cl appears to govern its own rate of entry via Na-K-Cl cotransport by impeding regulatory phosphorylation of the Na-K-Cl cotransport protein.
在从角鲨直肠腺分离出的分泌小管中,评估了细胞质氯离子浓度([Cl]i)对钠钾氯协同转运体的激活状态([3H]苄甲噻嗪结合率)和磷酸化状态(32P掺入)的影响。在细胞体积相对恒定的情况下(通过去除细胞外氯离子或钠离子或添加布美他尼)降低[Cl]i,会增加协同转运体的激活和磷酸化。将细胞外钾离子浓度([K]o)从4 mM提高到80 mM,这一操作会使[Cl]i升高至正常水平以上,降低基础协同转运活性,并使其对福斯可林完全不敏感。尽管由于渗透性失水[Cl]i已经大幅升高,但高[K]o也会阻断细胞收缩引起的激活和磷酸化。磷酸酶抑制剂花萼海绵诱癌素A也能促进激活,但在短暂暴露于高[K]o的细胞中则不能。总之,降低[Cl]i的操作会激活协同转运体,而升高[Cl]i(或阻止其降低)的操作则会阻断分泌刺激引起的激活。细胞内的氯离子似乎通过阻碍钠钾氯协同转运蛋白的调节性磷酸化来控制其自身通过钠钾氯协同转运进入细胞的速率。
