Johnson and Johnson Pharmaceutical Research and Development, San Diego, CA 92121, USA.
Mol Pharmacol. 2011 Nov;80(5):848-58. doi: 10.1124/mol.111.074500. Epub 2011 Aug 23.
Receptors from distant species may have conserved functions despite significant differences in protein sequences. Whereas the noncritical residues are often changed in distant species, the amino acids critical in receptor functions are often conserved. Studying the conserved residues between receptors from distant species offers valuable information to probe the roles of residues in receptor function. We identified two zebrafish receptors (zGPR81-1 and zGPR81-2) that show approximately 60% identity to human GPR81, GPR109a, and GPR109b but respond only to l-lactate and not to the GPR109a ligands. Protein sequence comparison among zebrafish GPR81s, mammalian GPR81s, GPR109a, and GPR109b identified a common structure (six Cys residues at the extracellular domains that potentially form three disulfide bonds) in this subfamily of receptors. In addition, a number of residues conserved in all GPR81s but not in GPR109s have been identified. Furthermore, we identified a conserved motif, C165-E166-S167-F168, at the second extracellular loop of GPR81. Using site-directed mutagenesis, we showed that Arg71 at the transmembrane domain 2 is very critical for GPR81 function. In addition, we demonstrated that the C165-E166-S167-F168 motif at the second extracellular loop is critical for GPR81 function, and the conserved six Cys residues at the extracellular regions are necessary for GPR81 function. It is important to mention that for those residues important for GPR81 function, the corresponding residues or motifs in GPR109a are also critical for GPR109a function. These findings help us better understand the interaction between lactate and GPR81 and provide useful information for GPR81 ligand design.
尽管远缘物种的受体蛋白序列存在显著差异,但它们可能具有保守的功能。非关键残基在远缘物种中经常发生变化,而受体功能关键的氨基酸通常是保守的。研究远缘物种受体之间的保守残基,可以提供有价值的信息来探究残基在受体功能中的作用。我们鉴定了两种斑马鱼受体(zGPR81-1 和 zGPR81-2),它们与人类 GPR81、GPR109a 和 GPR109b 的相似度约为 60%,但仅对 l-乳酸有反应,而不对 GPR109a 的配体有反应。在斑马鱼 GPR81、哺乳动物 GPR81、GPR109a 和 GPR109b 之间的蛋白序列比较中,在这个受体亚家族中发现了一个共同的结构(六个胞外域的半胱氨酸残基,可能形成三个二硫键)。此外,还鉴定出了所有 GPR81 中保守但在 GPR109 中不保守的一些残基。此外,我们在 GPR81 的第二个胞外环中鉴定出一个保守的基序 C165-E166-S167-F168。通过定点突变,我们发现跨膜域 2 上的精氨酸 71 对 GPR81 功能非常关键。此外,我们还证明了第二个胞外环上的 C165-E166-S167-F168 基序对 GPR81 功能至关重要,而且胞外区域的六个保守半胱氨酸残基对于 GPR81 功能也是必需的。值得一提的是,对于那些对 GPR81 功能很重要的残基,GPR109a 中相应的残基或基序对于 GPR109a 功能也是很关键的。这些发现有助于我们更好地理解乳酸与 GPR81 之间的相互作用,并为 GPR81 配体设计提供有用的信息。
