Flanagan C A, Becker I I, Davidson J S, Wakefield I K, Zhou W, Sealfon S C, Millar R P
Department of Chemical Pathology, University of Cape Town Medical School, Observatory, South Africa.
J Biol Chem. 1994 Sep 9;269(36):22636-41.
The Arg residue at position 8 of mammalian GnRH is necessary for high affinity binding to mammalian GnRH receptors. This requirement has been postulated to derive from an electrostatic interaction of Arg8 with a negatively charged receptor residue. In order to identify such a residue, 8 conserved acidic residues of the mouse GnRH receptor were mutated to isosteric Asn or Gln. Mutant receptors were tested for decreased preference for Arg8-containing ligands by ligand binding and inositol phosphate production. One of the mutants, in which the Glu301 residue was mutated to Gln, exhibited a 56-fold decrease in apparent affinity for mammalian GnRH. The mutant receptor also exhibited decreased affinity for [Lys8]GnRH, but its affinity for [Gln8]GnRH was unchanged compared with the wild type receptor. The apparent affinity of the mutant receptor for the acidic analogue, [Glu8]GnRH, was increased more than 10-fold. The mutant receptor did not, therefore, distinguish mammalian GnRH from analogues with amino acid substitutions at position 8 as effectively as the wild type receptor. This loss of discrimination was specific for the residue at position 8, because the mutant receptor did distinguish mammalian GnRH from analogues with favorable substitutions at positions 5, 6, and 7. These findings show that Glu301 of the GnRH receptor plays a role in receptor recognition of Arg8 in the ligand and are consistent with an electrostatic interaction between these 2 residues.
哺乳动物促性腺激素释放激素(GnRH)第8位的精氨酸(Arg)残基对于与哺乳动物GnRH受体的高亲和力结合是必需的。据推测,这一需求源于Arg8与带负电荷的受体残基之间的静电相互作用。为了鉴定这样一个残基,将小鼠GnRH受体的8个保守酸性残基突变为等排的天冬酰胺(Asn)或谷氨酰胺(Gln)。通过配体结合和肌醇磷酸生成试验检测突变受体对含Arg8配体的偏好性降低情况。其中一个突变体,即Glu301残基突变为Gln的突变体,对哺乳动物GnRH的表观亲和力降低了56倍。该突变受体对[赖氨酸8]GnRH的亲和力也降低,但与野生型受体相比,其对[谷氨酰胺8]GnRH的亲和力未变。突变受体对酸性类似物[谷氨酸8]GnRH的表观亲和力增加了10倍以上。因此,与野生型受体相比,突变受体不能像野生型受体那样有效地区分哺乳动物GnRH与第8位氨基酸有取代的类似物。这种识别能力的丧失对第8位的残基具有特异性,因为突变受体确实能区分哺乳动物GnRH与第5、6和7位有有利取代的类似物。这些发现表明,GnRH受体的Glu301在受体识别配体中的Arg8方面发挥作用,并且与这两个残基之间的静电相互作用一致。
