Vuillaumier S, Kaltenboeck B, Lecointre G, Lehn P, Denamur E
INSERM U120, Hopital Robert Debré, Paris, France.
Mol Biol Evol. 1997 Apr;14(4):372-80. doi: 10.1093/oxfordjournals.molbev.a025773.
The species-specific pattern of cystic fibrosis transmembrane conductance regulator (CFTR) expression was investigated in order to identify species closely related to man which can be used as potential cystic fibrosis (CF) animal models. To this purpose, the nucleotide sequences of the CFTR promoter region of eight mammalian species representing four different orders (Primates, Artiodactyla, Lagomorpha and Rodentia) were analyzed. Distance matrices and unrooted trees of the CFTR promoter region sequences yielded two deeply separated groups, one including man (Homo sapiens), nonhuman primates (Hylobates lar, Macaca fascicularis, Saimiri sciureus), cow (Bos taurus), and rabbit (Oryctolagus cuniculus) and the other including the rodents (Rattus norvegicus, Mus musculus). Divergences between rodent and nonrodent groups have been observed in putative cis transcriptional regulatory elements and can be involved in the differences of pattern of expression between these two groups. Comparison of the available CFTR cDNA sequences enabled us to root the tree with a noneutherian outgroup and to perform a phylogenetic analysis. This analysis did not detect any base composition bias and supported polyphyletic Glires. Although a long-branch attraction artifact cannot be completely excluded, these findings converge toward the recent statement (Graur, Duret, and Gouy 1996) that Lagomorpha is more closely related to Primates than to Rodentia. In addition, the phenylalanine residue in exon 10 involved in the most common CF mutation in man is conserved in rabbit. These phylogenetic analyses as well as anatomical and developmental data suggest that, once rabbit embryonic stem cells become available, the rabbit will provide a suitable tool for both gene transfer and pharmacological investigations and could lead to a better CF model than the current murine models.
为了鉴定可作为潜在囊性纤维化(CF)动物模型的、与人类亲缘关系密切的物种,研究了囊性纤维化跨膜传导调节因子(CFTR)的物种特异性表达模式。为此,分析了代表四个不同目(灵长目、偶蹄目、兔形目和啮齿目)的八个哺乳动物物种CFTR启动子区域的核苷酸序列。CFTR启动子区域序列的距离矩阵和无根树产生了两个深度分离的组,一组包括人类(智人)、非人类灵长类动物(白掌长臂猿、食蟹猴、松鼠猴)、牛(黄牛)和兔(穴兔),另一组包括啮齿动物(褐家鼠、小家鼠)。在假定的顺式转录调节元件中观察到啮齿动物和非啮齿动物组之间的差异,这可能与这两组之间表达模式的差异有关。对可用的CFTR cDNA序列进行比较,使我们能够用一个非真兽类外类群对树进行生根,并进行系统发育分析。该分析未检测到任何碱基组成偏差,并支持多系的啮齿动物。尽管不能完全排除长枝吸引假象,但这些发现与最近的观点(Graur、Duret和Gouy,1996年)一致,即兔形目与灵长目比与啮齿目关系更密切。此外,人类最常见CF突变所涉及的第10外显子中的苯丙氨酸残基在兔中是保守 的。这些系统发育分析以及解剖学和发育数据表明,一旦获得兔胚胎干细胞,兔将为基因转移和药理学研究提供合适的工具,并且可能产生比当前小鼠模型更好的CF模型。
