Yenush Lynne, Merchan Stephanie, Holmes James, Serrano Ramón
Instituto de Biología Molecular y Celular de Plantas, Universidad Politécnica de Valencia CSIC, Camino de Vera s/n, 46022 Valencia, Spain.
Mol Cell Biol. 2005 Oct;25(19):8683-92. doi: 10.1128/MCB.25.19.8683-8692.2005.
Intracellular pH and K+ concentrations must be tightly controlled because they affect many cellular activities, including cell growth and death. The mechanisms of homeostasis of H+ and K+ are only partially understood. In the yeast Saccharomyces cerevisiae, proton efflux is mediated by the Pma1 H+-ATPase. As this pump is electrogenic, the activity of the Trk1 and -2 K+ uptake system is crucial for sustained Pma1p operation. The coordinated activities of these two systems determine cell volume, turgor, membrane potential, and pH. Genetic evidence indicates that Trk1p is activated by the Hal4 and -5 kinases and inhibited by the Ppz1 and -2 phosphatases, which, in turn, are inhibited by their regulatory subunit, Hal3p. We show that Trk1p, present in plasma membrane "rafts", physically interacts with Ppz1p, that Trk1p is phosphorylated in vivo, and that its level of phosphorylation increases in ppz1 and -2 mutants. Interestingly, both the interaction with and inhibition of Ppz1p by Hal3p are pH dependent. These results are consistent with a model in which the Ppz1-Hal3 interaction is a sensor of intracellular pH that modulates H+ and K+ homeostasis through the regulation of Trk1p activity.
细胞内的pH值和钾离子浓度必须受到严格控制,因为它们会影响许多细胞活动,包括细胞生长和死亡。目前,人们对氢离子和钾离子的稳态机制仅了解一部分。在酿酒酵母中,质子外流由Pma1氢离子-ATP酶介导。由于该泵具有生电性,Trk1和Trk2钾离子摄取系统的活性对于Pma1p的持续运作至关重要。这两个系统的协同活动决定了细胞体积、膨压、膜电位和pH值。遗传学证据表明,Trk1p被Hal4和Hal5激酶激活,并被Ppz1和Ppz2磷酸酶抑制,而Ppz1和Ppz2磷酸酶又被其调节亚基Hal3p抑制。我们发现,存在于质膜“筏”中的Trk1p与Ppz1p发生物理相互作用,Trk1p在体内被磷酸化,并且其磷酸化水平在ppz1和ppz2突变体中增加。有趣的是,Hal3p与Ppz1p的相互作用和抑制作用均依赖于pH值。这些结果与一个模型一致,即Ppz1-Hal3相互作用是细胞内pH值的传感器,通过调节Trk1p的活性来调节氢离子和钾离子的稳态。