Department of Veterinary Science, The University of Melbourne, 250 Princes Highway, Werribee, Victoria 3030, Australia.
Int J Parasitol. 2010 Mar 15;40(4):405-15. doi: 10.1016/j.ijpara.2009.09.005. Epub 2009 Sep 29.
Despite their phylogenetic diversity, parasitic nematodes share attributes of longevity and developmental arrest (=hypobiosis) with free-living nematodes at key points in their life cycles, particularly in larval stages responsible for establishing infection in the host. Insulin-like signalling plays crucial roles in the regulation of life span and arrest (=dauer formation) in the free-living nematode, Caenorhabditis elegans. Insulin-like signalling in C. elegans negatively regulates the fork head boxO (FoxO) transcription factor encoded by daf-16, which is linked to initiating a dauer-specific pattern of gene expression. Orthologues of daf-16 have been identified in several species of parasitic nematode. Although function has been demonstrated for an orthologue from the parasitic nematode Strongyloides stercoralis (Rhabditida), the functional capabilities of homologues/orthologues in bursate nematodes (Strongylida) are unknown. In the present study, we used a genomic approach to determine the structures of two complete daf-16 orthologues (designated Hc-daf-16.1 and Hc-daf-16.2) and their transcripts in the parasitic nematode Haemonchus contortus, and assessed their function(s) using C. elegans as a genetic surrogate. Unlike the multiple isoforms of Ce-DAF-16 and Ss-DAF-16, which are encoded by a single gene and produced by alternative splicing, mRNAs encoding the proteins Hc-DAF-16.1 and Hc-DAF-16.2 are transcribed from separate and distinct loci. Both orthologues are transcribed in all developmental stages and both sexes of H. contortus, and the inferred proteins (603 and 556 amino acids) each contain a characteristic, highly conserved fork head domain. In spite of distinct differences in genomic organisation compared with orthologues in C. elegans and S. stercoralis, genetic complementation studies demonstrated here that Hc-daf-16.2, but not Hc-daf-16.1, could restore daf-16 function to a C. elegans strain carrying a null mutation at this locus. These findings are consistent with previous results for S. stercoralis and demonstrate functional conservation of the daf-16b orthologue between key parasitic nematodes from two different taxonomic orders and C. elegans. We conclude from these experiments that the fork head transcription factor DAF-16 and, by inference, other insulin-like signalling elements, are conserved in H. contortus, a parasitic nematode of paramount economic importance. We demonstrate that functionality is sufficiently conserved in Hc-DAF-16.2 that it can replace Ce-DAF-16 in promoting dauer arrest in C. elegans.
尽管寄生线虫在系统发育上具有多样性,但它们在生命周期的关键阶段,特别是在幼虫阶段,与自由生活的线虫具有长寿和发育停滞(=滞育)的特征,这有助于它们在宿主中建立感染。胰岛素样信号在调节自由生活线虫秀丽隐杆线虫的寿命和发育停滞( dauer 形成)方面起着至关重要的作用。秀丽隐杆线虫中的胰岛素样信号负调控由 daf-16 编码的叉头框 O(FoxO)转录因子,该转录因子与 dauer 特有的基因表达模式的启动有关。daaf-16 的同源物已在几种寄生线虫中被鉴定出来。尽管寄生线虫 Strongyloides stercoralis(Rhabditida)中的同源物的功能已被证明,但在有刺线虫(Strongylida)中的同源物/同源物的功能尚不清楚。在本研究中,我们使用基因组方法确定了寄生线虫旋毛虫中两个完整的 daf-16 同源物(分别命名为 Hc-daf-16.1 和 Hc-daf-16.2)及其转录本的结构,并使用秀丽隐杆线虫作为遗传替代物来评估它们的功能。与 Ce-DAF-16 和 Ss-DAF-16 的多个同工型不同,它们由单个基因编码,并通过选择性剪接产生,编码 Hc-DAF-16.1 和 Hc-DAF-16.2 蛋白的 mRNA 是从单独且不同的基因座转录而来的。这两个同源物在旋毛虫的所有发育阶段和雌雄两性中均有转录,并且推断的蛋白质(603 和 556 个氨基酸)都含有一个特征的、高度保守的叉头结构域。尽管与秀丽隐杆线虫和 Strongyloides stercoralis 的同源物相比,基因组组织存在明显差异,但这里的遗传互补研究表明,Hc-daf-16.2 而不是 Hc-daf-16.1 可以恢复该基因座缺失突变的秀丽隐杆线虫菌株的 daf-16 功能。这些发现与 Strongyloides stercoralis 的先前结果一致,并证明了关键寄生线虫之间以及与秀丽隐杆线虫的 daf-16b 同源物的胰岛素样信号通路的功能保守性。从这些实验中,我们得出结论,叉头转录因子 DAF-16 以及推而广之的其他胰岛素样信号元件,在旋毛虫中是保守的,旋毛虫是一种具有重要经济意义的寄生线虫。我们证明,Hc-DAF-16.2 的功能足够保守,足以在秀丽隐杆线虫中取代 Ce-DAF-16 来促进 dauer 停滞。
