Rowatt Ashley J, DePowell John J, Powell Wade H
Kenyon College, Gambier, Ohio 43022, USA.
J Exp Zool B Mol Dev Evol. 2003 Dec 15;300(1):48-57. doi: 10.1002/jez.b.45.
The aryl hydrocarbon receptor nuclear translocator (ARNT) is a member of the Per-ARNT-Sim (PAS) protein superfamily, transcription factors that mediate the cellular responses to various developmental signals and environmental conditions. A beta-class ("partner") PAS protein, ARNT exhibits the capacity to form transcriptionally active heterodimers with several alpha-class ("sensor") proteins, including the aryl hydrocarbon receptors (AHRs), the hypoxia-inducible factors (HIFs), and the Single minded (Sim) proteins. Two genes encode different forms of ARNT in mammals: ARNT1, which is widely expressed, and ARNT2, which is limited to the brain and kidneys of adults and specific neural and branchial tissues of embryos. In contrast, fish apparently express only a single ARNT gene, although in different species, this may be either ARNT1 or ARNT2. In efforts to understand the evolution of ARNT proteins throughout the vertebrate lineage, we isolated an ARNT cDNA from early life stages of the amphibian Xenopus laevis. The encoded protein binds cognate DNA sequences in concert with mouse AHR. Phylogenetic analysis reveals that this sequence is orthologous to mammalian ARNT2 and paralogous to the recently reported X. laevis ARNT1. ARNT2 mRNA expression begins later than ARNT1 (stage 22 vs. stage 8), suggesting the two proteins play distinct roles during development. Hence, in the expression of two well-conserved ARNT paralogs with distinct expression patterns, X. laevis resembles mammals rather than fish. Diversity in the number and function of PAS proteins, including ARNT, may underlie significant species differences in developmental programming and biochemical response to environmental conditions. The identification of multiple amphibian ARNT paralogs represents an important step in the understanding of evolution and functional variation of ARNT in vertebrates.
芳烃受体核转运蛋白(ARNT)是Per-ARNT-Sim(PAS)蛋白超家族的成员,该超家族是介导细胞对各种发育信号和环境条件作出反应的转录因子。作为一种β类(“伴侣”)PAS蛋白,ARNT能够与多种α类(“传感器”)蛋白形成具有转录活性的异二聚体,这些α类蛋白包括芳烃受体(AHRs)、缺氧诱导因子(HIFs)和单 minded(Sim)蛋白。在哺乳动物中,有两个基因编码不同形式的ARNT:广泛表达的ARNT1和仅限于成年动物脑和肾以及胚胎特定神经和鳃组织表达的ARNT2。相比之下,鱼类显然只表达一个ARNT基因,不过在不同物种中,这个基因可能是ARNT1或ARNT2。为了了解ARNT蛋白在整个脊椎动物谱系中的进化情况,我们从两栖动物非洲爪蟾生命早期阶段分离出了一个ARNT cDNA。所编码的蛋白能与小鼠AHR协同结合同源DNA序列。系统发育分析表明,该序列与哺乳动物的ARNT2直系同源,与最近报道的非洲爪蟾ARNT1旁系同源。ARNT2 mRNA的表达开始时间比ARNT1晚(分别为第22阶段和第8阶段),这表明这两种蛋白在发育过程中发挥着不同的作用。因此,在具有不同表达模式的两个高度保守的ARNT旁系同源物的表达方面,非洲爪蟾与哺乳动物相似,而不是与鱼类相似。包括ARNT在内的PAS蛋白在数量和功能上的多样性,可能是发育编程和对环境条件的生化反应中物种显著差异的基础。多个两栖动物ARNT旁系同源物的鉴定是理解脊椎动物中ARNT进化和功能变异的重要一步。
