脂质介质gpcr的系统发育分析。

Sayaka Mizutani, Michihiro Tanaka, C. Wheelock, M. Kanehisa, S. Goto
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引用次数: 2

摘要

脂质介质是前列腺素、白三烯、溶血磷脂、血小板活化因子、内源性大麻素等生物活性脂质的总称,参与炎症、免疫调节、细胞发育等多种生理功能。它们通过与配体特异性g蛋白偶联受体(gpcr)结合而起作用。自20世纪90年代以来,许多脂质gpcr已经在人类身上克隆出来,在其他脊椎动物身上也发现了一些。然而,这些受体的保守性在其他真核生物中的研究很少。在此,我们通过收集13种具有完整基因组的真核生物的同源物进行了系统发育分析。分析表明,在13种真核生物中,前列腺素受体的同源物可能是保守的。相比之下,溶血磷脂和大麻素受体似乎只在脊椎动物和脊索动物中保守。白三烯和其他生物活性脂质的受体仅限于脊椎动物。这些结果表明,脂质介质及其受体与高度调节的生理功能如免疫调节和中枢神经系统的形成共同进化。因此,研究脂质介质GPCR同源物在无脊椎动物物种中的存在和作用,可以深入了解不同分类群的基本生物过程的发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Phylogenetic analysis of lipid mediator GPCRs.
Lipid mediator is the collective term for prostanoids, leukotrienes, lysophospholipids, platelet-activating factor, endocannabinoids and other bioactive lipids, that are involved in various physiological functions including inflammation, immune regulation and cellular development. They act by binding to their ligand-specific G-protein coupled receptors (GPCRs). Since 1990's a number of lipid GPCRs have been cloned in humans, with a few more identified in other vertebrates. However, the conservation of these receptors has been poorly investigated in other eukaryotes. Herein we performed a phylogenetic analysis by collecting their orthologs in 13 eukaryotes with complete genomes. The analysis shows that orthologs for prostanoid receptors are likely to be conserved in the 13 eukaryotes. In contrast, those for lysophospholipid and cannabinoid receptors appear to be conserved only in vertebrates and chordates. Receptors for leukotrienes and other bioactive lipids are limited to vertebrates. These results indicate that the lipid mediators and their receptors have coevolved with the development of highly modulated physiological functions such as immune regulation and the formation of the central nervous system. Accordingly, examining the presence and role of lipid mediator GPCR orthologs in invertebrate species can provide insight into the development of fundamental biological processes across diverse taxa.
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