Warner D R, Weng G, Yu S, Matalon R, Weinstein L S
Membrane Biochemistry Section, Laboratory of Molecular and Cellular Neurobiology, NINDS, National Institutes of Health, Bethesda, Maryland 20892, USA.
J Biol Chem. 1998 Sep 11;273(37):23976-83. doi: 10.1074/jbc.273.37.23976.
Albright hereditary osteodystrophy (AHO), a disorder characterized by skeletal abnormalities and obesity, is associated with heterozygous inactivating mutations in the gene for Gsalpha. A novel Gsalpha mutation encoding the substitution of tryptophan for a nonconserved arginine within the switch 3 region (Gsalpha R258W) was identified in an AHO patient. Although reverse transcription-polymerase chain reaction studies demonstrated that mRNA expression from wild type and mutant alleles was similar, Gsalpha expression in erythrocyte membranes from the affected patient was reduced by 50%. A Gsalpha R258W cDNA, as well as one with arginine replaced by alanine (Gsalpha R258A), was generated, and the biochemical properties of in vitro transcription/translation products were examined. When reconstituted with cyc- membranes, both mutant proteins were able to stimulate adenylyl cyclase normally in the presence of guanosine- 5'-O-(3-thiotriphosphate) (GTPgammaS) but had decreased ability in the presence of isoproterenol or AlF4- (a mixture of 10 microM AlCl3 and 10 mM NaF). The ability of each mutant to bind and be activated by GTPgammaS or AlF4- was assessed by trypsin protection assays. Both mutants were protected normally by GTPgammaS but showed reduced protection in the presence of AlF4-. The addition of excess GDP (2 mM) was able to rescue the ability of AlF4- to protect the mutants, suggesting that they might have reduced affinity for GDP. A Gsalpha R258A mutant purified from Escherichia coli had decreased affinity for GDP and an apparent rate of GDP release that was 10-fold greater than that of wild type Gsalpha. Sucrose density gradient analysis demonstrated that both Gsalpha R258W and Gsalpha R258A were thermolabile at higher temperatures and that denaturation of both mutants was prevented by the presence of 0.1 mM GTPgammaS or 2 mM GDP. The crystal structure of Gsalpha demonstrates that Arg258 interacts with a conserved residue in the helical domain (Gln170). Arg258 substitutions would be predicted to open the cleft between the GTPase and helical domains, allowing for increased GDP release in the inactive state, resulting in enhanced thermolability and reduced AlF4--induced adenylyl cyclase stimulation and trypsin protection, since activation by AlF4- requires bound GDP.
奥尔布赖特遗传性骨营养不良症(AHO)是一种以骨骼异常和肥胖为特征的疾病,与Gsα基因的杂合失活突变有关。在一名AHO患者中鉴定出一种新的Gsα突变,该突变编码在开关3区域内将色氨酸替换为非保守精氨酸(Gsα R258W)。尽管逆转录-聚合酶链反应研究表明野生型和突变等位基因的mRNA表达相似,但患病患者红细胞膜中的Gsα表达降低了50%。构建了一个Gsα R258W cDNA以及一个将精氨酸替换为丙氨酸的cDNA(Gsα R258A),并检测了体外转录/翻译产物的生化特性。当与胞质膜重构时,两种突变蛋白在存在鸟苷-5'-O-(3-硫代三磷酸)(GTPγS)的情况下能够正常刺激腺苷酸环化酶,但在存在异丙肾上腺素或AlF4-(10μM AlCl3和10 mM NaF的混合物)时能力下降。通过胰蛋白酶保护试验评估了每个突变体与GTPγS或AlF4-结合并被其激活的能力。两种突变体在GTPγS存在下均能正常受到保护,但在AlF4-存在下保护作用减弱。加入过量的GDP(2 mM)能够挽救AlF4-保护突变体的能力,这表明它们对GDP的亲和力可能降低。从大肠杆菌中纯化的Gsα R258A突变体对GDP的亲和力降低,GDP释放的表观速率比野生型Gsα高10倍。蔗糖密度梯度分析表明,Gsα R258W和Gsα R258A在较高温度下均不耐热,并且0.1 mM GTPγS或2 mM GDP的存在可防止两种突变体变性。Gsα的晶体结构表明,Arg258与螺旋结构域中的一个保守残基(Gln170)相互作用。预计Arg258的取代会打开GTP酶和螺旋结构域之间的裂隙,从而在无活性状态下增加GDP的释放,导致热稳定性增强以及AlF4-诱导的腺苷酸环化酶刺激和胰蛋白酶保护作用减弱,因为AlF4-激活需要结合的GDP。
