Inoue Koji, Naruse Kiyoshi, Yamagami Sayaka, Mitani Hiroshi, Suzuki Norio, Takei Yoshio
Ocean Research Institute, University of Tokyo, 1-15-1 Minamidai, Nakano, Tokyo 164-8639, Japan.
Proc Natl Acad Sci U S A. 2003 Aug 19;100(17):10079-84. doi: 10.1073/pnas.1632368100. Epub 2003 Jul 31.
Natriuretic peptides (NPs) are major cardiovascular and osmoregulatory hormones in vertebrates. Although tetrapods generally have three subtypes, atrial NP (ANP), B-type NP (BNP), and C-type NP (CNP), some teleosts lack BNP, and sharks and hagfish have only one NP. Thus, NPs have diverged during fish evolution, possibly reflecting changes in osmoregulatory systems. In this study, we found, by cDNA cloning, four distinct CNPs (1 through 4) in the medaka (Oryzias latipes) and puffer fish (Takifugu rubripes), although to our knowledge no more than two CNPs have been isolated from a vertebrate species. Predicted mature CNP-1 was most similar, and CNP-4 was most dissimilar, to mammalian CNPs. However, synthetic CNP-4 most potently activated OlGC1, a medaka CNP-specific receptor (NPR-B) expressed in cultured cells, whereas CNP-1 and CNP-3 most activated OlGC7 and OlGC2, two medaka homologues of the ANP/BNP receptor (NPR-A), respectively. Linkage mapping in medaka followed by comparative genomic analyses among fishes and humans located four CNP genes in separate medaka chromosomes corresponding to human chromosomes 1, 2, 12, and 17. From conserved synteny, the following evolutionary history of NPs was evoked: (i) four CNP genes were generated by chromosomal duplications before the divergence of elasmobranchs; (ii) the CNP-3 gene generated ANP and BNP genes through tandem duplication before the divergence of tetrapods and teleosts; (iii) CNP-1 and -2 genes were retained in the teleost lineage but not in the tetrapod lineage; (iv) the CNP-3 gene disappeared from the tetrapod lineage after divergence of amphibians; and (v) the CNP-4 gene is retained in humans as CNP.
利钠肽(NPs)是脊椎动物主要的心血管和渗透压调节激素。虽然四足动物一般有三种亚型,即心房钠尿肽(ANP)、B型钠尿肽(BNP)和C型钠尿肽(CNP),但一些硬骨鱼缺乏BNP,而鲨鱼和盲鳗只有一种NP。因此,NPs在鱼类进化过程中发生了分化,这可能反映了渗透压调节系统的变化。在本研究中,我们通过cDNA克隆,在青鳉(Oryzias latipes)和河豚(Takifugu rubripes)中发现了四种不同的CNP(1至4),尽管据我们所知,从一个脊椎动物物种中分离出的CNP不超过两种。预测的成熟CNP-1与哺乳动物CNP最相似,而CNP-4与哺乳动物CNP最不相似。然而,合成的CNP-4最有效地激活了OlGC1,这是一种在培养细胞中表达的青鳉CNP特异性受体(NPR-B),而CNP-1和CNP-3分别最有效地激活了OlGC7和OlGC2,这是ANP/BNP受体(NPR-A)的两种青鳉同源物。在青鳉中进行连锁图谱分析,随后在鱼类和人类之间进行比较基因组分析,结果在青鳉的不同染色体中定位到了四个CNP基因,它们分别对应于人类的1号、2号、12号和17号染色体。根据保守的同线性,得出了NPs的以下进化史:(i)在板鳃亚纲动物分化之前,通过染色体复制产生了四个CNP基因;(ii)在四足动物和硬骨鱼分化之前,CNP-3基因通过串联复制产生了ANP和BNP基因;(iii)CNP-1和-2基因保留在硬骨鱼谱系中,但在四足动物谱系中没有保留;(iv)两栖动物分化后,CNP-3基因从四足动物谱系中消失;(v)CNP-4基因在人类中作为CNP保留下来。