Zhouyao Haonan, Zimmer Alex M, Fehsenfeld Sandra, Liebenstein Thomas, Richter David O, Begemann Gerrit, Eck Peter, Perry Steve F, Weihrauch Dirk
University of Manitoba, Department of Food and Human Nutritional Sciences, 66 Chancellors Circle, Winnipeg, MB, Canada, R3T 2N2.
University of Alberta, Department of Biological Science, 11355 Saskatchewan Drive, Edmonton, AB, Canada, T6G 2E9.
J Exp Biol. 2022 Oct 15;225(20). doi: 10.1242/jeb.244279. Epub 2022 Oct 17.
Ammonia excretion in fish excretory epithelia is a complex interplay of multiple membrane transport proteins and mechanisms. Using the model system of zebrafish (Danio rerio) larvae, here we identified three paralogues of a novel ammonia transporter, hippocampus-abundant transcript 1 (DrHiat1), also found in most vertebrates. When functionally expressed in Xenopus laevis oocytes, DrHiat1a and DrHiat1b promoted methylamine uptake in a competitive manner with ammonia. In situ hybridization experiments showed that both transporters were expressed as early as the 4-cell stage in zebrafish embryos and could be identified in most tissues 4 days post-fertilization. Larvae experiencing morpholino-mediated knockdown of DrHiat1b exhibited significantly lower whole-body ammonia excretion rates compared with control larvae. Markedly decreased site-specific total ammonia excretion of up to 85% was observed in both the pharyngeal region (site of developing gills) and the yolk sac (region shown to have the highest NH4+ flux). This study is the first to identify DrHiat1b/DrHIAT1 in particular as an important contributor to ammonia excretion in larval zebrafish. Being evolutionarily conserved, these proteins are likely involved in multiple other general ammonia-handling mechanisms, making them worthy candidates for future studies on nitrogen regulation in fishes and across the animal kingdom.
鱼类排泄上皮中的氨排泄是多种膜转运蛋白和机制的复杂相互作用。利用斑马鱼(Danio rerio)幼体的模型系统,我们在此鉴定出一种新型氨转运蛋白——海马丰富转录本1(DrHiat1)的三个旁系同源物,大多数脊椎动物中也存在该蛋白。当在非洲爪蟾卵母细胞中功能性表达时,DrHiat1a和DrHiat1b以与氨竞争的方式促进甲胺摄取。原位杂交实验表明,这两种转运蛋白在斑马鱼胚胎的4细胞阶段就已表达,在受精后4天可在大多数组织中检测到。与对照幼体相比,经历了吗啉代介导的DrHiat1b敲低的幼体全身氨排泄率显著降低。在咽部区域(鳃发育部位)和卵黄囊(显示具有最高NH4+通量的区域)均观察到特定部位的总氨排泄显著降低,降幅高达85%。本研究首次特别鉴定出DrHiat1b/DrHIAT1是斑马鱼幼体氨排泄的重要贡献者。由于这些蛋白在进化上保守,它们可能参与多种其他一般的氨处理机制,使其成为未来鱼类及整个动物界氮调节研究的有价值候选对象。