Levine S A, Nath S K, Yun C H, Yip J W, Montrose M, Donowitz M, Tse C M
Department of Medicine, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205, USA.
J Biol Chem. 1995 Jun 9;270(23):13716-25. doi: 10.1074/jbc.270.23.13716.
NHE3, a cloned intestinal and renal brush border Na+/H+ exchanger, has previously been shown to be both stimulated and inhibited by different protein kinases/growth factors. For instance, NHE3 is stimulated by serum and fibroblast growth factor (FGF) and inhibited by protein kinase C. In the present study, we used a series of NHE3 C terminus truncation mutants to identify separate regions of the C-terminal cytoplasmic tail responsible for stimulation and inhibition by protein kinases/growth factors. Five NHE3 C terminus truncation mutant stable cell lines were generated by stably transfecting NHE3 deletion cDNAs into PS120 fibroblasts, which lack any endogenous Na+/H+ exchanger. Using fluorometric techniques, the effects of the calcium/calmodulin (CaM) inhibitor W13, calcium/CaM kinase inhibitor KN-62, phorbol myristate acetate, okadaic acid, FGF, and fetal bovine serum on Na+/H+ exchange were studied in these transfected cells. Inhibition of basal activity of full-length NHE3 is mediated by CaM at a site C-terminal to amino acid 756; this CaM effect occurs through both kinase dependent and independent mechanisms. There is another independent inhibitory domain for protein kinase C between amino acids 585 and 689. In addition, there are at least three stimulatory regions in the C-terminal domain of NHE3, corresponding to amino acids 509-543 for okadaic acid, 475-509 for FGF, and a region N-terminal to amino acid 475 for fetal bovine serum. We conclude that separate regions of the C terminus of NHE3 are involved with stimulation or inhibition of Na+/H+ exchange activity, with both stimulatory and inhibitory domains having several discrete subdomains. A conservative model to explain the way these multiple domains in the C terminus of NHE3 regulate Na+/H+ exchange is via an effect on associated regulatory proteins.
NHE3是一种已克隆的肠道和肾脏刷状缘Na⁺/H⁺交换体,先前已证明它受到不同蛋白激酶/生长因子的刺激和抑制。例如,NHE3受到血清和成纤维细胞生长因子(FGF)的刺激,并受到蛋白激酶C的抑制。在本研究中,我们使用了一系列NHE3 C末端截短突变体,以鉴定C末端胞质尾巴中负责蛋白激酶/生长因子刺激和抑制的不同区域。通过将NHE3缺失cDNA稳定转染到缺乏任何内源性Na⁺/H⁺交换体的PS120成纤维细胞中,产生了五种NHE3 C末端截短突变体稳定细胞系。使用荧光技术,在这些转染细胞中研究了钙/钙调蛋白(CaM)抑制剂W13、钙/CaM激酶抑制剂KN-62、佛波醇肉豆蔻酸酯乙酸酯、冈田酸、FGF和胎牛血清对Na⁺/H⁺交换的影响。全长NHE3基础活性的抑制是由CaM在氨基酸756 C末端的位点介导的;这种CaM效应通过激酶依赖性和非依赖性机制发生。在氨基酸585和689之间存在另一个蛋白激酶C的独立抑制结构域。此外,NHE3的C末端结构域中至少有三个刺激区域,冈田酸对应于氨基酸509 - 543,FGF对应于475 - 509,胎牛血清对应于氨基酸475 C末端的一个区域。我们得出结论,NHE3 C末端的不同区域参与Na⁺/H⁺交换活性的刺激或抑制,刺激和抑制结构域都有几个离散的亚结构域。一个保守模型来解释NHE3 C末端这些多个结构域调节Na⁺/H⁺交换的方式是通过对相关调节蛋白的影响。
