Iida-Klein A, Guo J, Takemura M, Drake M T, Potts J T, Abou-Samra A, Bringhurst F R, Segre G V
Endocrine Unit, Massachusetts General Hospital and Department of Medicine, Harvard Medical School, Boston, Massachusetts 02114, USA.
J Biol Chem. 1997 Mar 14;272(11):6882-9. doi: 10.1074/jbc.272.11.6882.
To define the structural requirements of the parathyroid hormone (PTH)/PTH-related protein (PTHrP) receptor necessary for activation of phospholipase C (PLC), receptors with random mutations in their second cytoplasmic loop were synthesized, and their properties were assessed. A mutant in which the wild type (WT) rat PTH/PTHrP receptor sequence EKKY (amino acids 317-320) was replaced with DSEL had little or no PTH-stimulated PLC activity when expressed transiently in COS-7 cells, but it retained full capacity to bind ligand and to generate cAMP. This phenotype was confirmed in LLC-PK1 cells stably expressing the DSEL mutant receptor, where both PTH-stimulated PLC activity and sodium-dependent phosphate co-transport were essentially abolished. Individual mutations of these four residues point to a critical role for Lys-319 in receptor-G protein coupling. PTH-generated IPs were reduced to 27 +/- 13% when K319E, compared with the WT receptor, and PLC activation was fully recovered in a receptor revertant in which Glu-319 in the DSEL mutant cassette was restored to the WT residue, Lys. Moreover, the WT receptor and a mutant receptor in which K319R had indistinguishable properties, thus suggesting that a basic amino acid at this position may be important for PLC activation. All of these receptors had unimpaired capacity to bind ligand and to generate cAMP. To ensure adequacy of Galphaq-subunits for transducing the receptor signal, Galphaq was expressed in HEK293 and in LLC-PK1 cells together with either WT receptors or receptors with the DSEL mutant cassette. PTH generated no inositol phosphates (IPs) in either HEK293 or LLC-PK1 cells, when they expressed DSEL mutant receptors together with Galphaq. In contrast, PTH generated 2- and 2. 5-fold increases in IPs, respectively, when these cells co-expressed both the WT receptor and Galphaq. Thus, generation of IPs by the activated PTH/PTHrP receptor can be selectively abolished without affecting its capacity to generate cAMP, and Lys-319 in the second intracellular loop is critical for activating the PLC pathway. Moreover, alpha-subunits of the Gq family, rather than betagamma-subunits, transduce the signal from the activated receptor to PLC, and the PLC, rather than the adenylyl cyclase, pathway mediates sodium-dependent phosphate co-transport in LLC-PK1 cells.
为确定激活磷脂酶C(PLC)所需的甲状旁腺激素(PTH)/PTH相关蛋白(PTHrP)受体的结构要求,合成了在其第二个细胞质环中具有随机突变的受体,并评估了它们的特性。将野生型(WT)大鼠PTH/PTHrP受体序列EKKY(氨基酸317 - 320)替换为DSEL的突变体,当在COS - 7细胞中瞬时表达时,几乎没有或没有PTH刺激的PLC活性,但它保留了结合配体和产生cAMP的全部能力。在稳定表达DSEL突变体受体的LLC - PK1细胞中证实了这种表型,其中PTH刺激的PLC活性和钠依赖性磷酸盐共转运基本上都被消除了。这四个残基的单个突变表明赖氨酸319在受体 - G蛋白偶联中起关键作用。与WT受体相比,当K319E时,PTH产生的肌醇磷酸(IPs)减少到27±13%,并且在一个受体回复突变体中PLC激活完全恢复,在该回复突变体中DSEL突变盒中的谷氨酸319恢复为WT残基赖氨酸。此外,WT受体和K319R突变体受体具有难以区分的特性,因此表明该位置的碱性氨基酸可能对PLC激活很重要。所有这些受体结合配体和产生cAMP的能力均未受损。为确保Gαq亚基足以转导受体信号,在HEK293和LLC - PK1细胞中与WT受体或带有DSEL突变盒的受体一起表达Gαq。当HEK293或LLC - PK1细胞同时表达DSEL突变体受体和Gαq时,PTH在这两种细胞中均未产生肌醇磷酸(IPs)。相反,当这些细胞共表达WT受体和Gαq时,PTH分别使IPs增加了2倍和2.5倍。因此,活化的PTH/PTHrP受体产生IPs的能力可以被选择性消除而不影响其产生cAMP的能力,并且第二个细胞内环中的赖氨酸319对于激活PLC途径至关重要。此外,Gq家族的α亚基而非βγ亚基将活化受体的信号转导至PLC,并且PLC途径而非腺苷酸环化酶途径介导LLC - PK1细胞中的钠依赖性磷酸盐共转运。
