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钠钾ATP酶β1亚基与α1亚基结合,调节广盐性虱目鱼(Chanos chanos)鳃中“低渗介质中更高的钠钾ATP酶”反应。

Na, K-ATPase β1 subunit associates with α1 subunit modulating a "higher-NKA-in-hyposmotic media" response in gills of euryhaline milkfish, Chanos chanos.

作者信息

Hu Yau-Chung, Chu Keng-Fu, Yang Wen-Kai, Lee Tsung-Han

机构信息

Department of Life Sciences, National Chung Hsing University, 145 Xingda Road, Taichung, 402, Taiwan, Republic of China.

Bachelor Degree Program in Animal Healthcare, Hungkuang University, Taichung, 433, Taiwan, Republic of China.

出版信息

J Comp Physiol B. 2017 Oct;187(7):995-1007. doi: 10.1007/s00360-017-1066-9. Epub 2017 Mar 10.

DOI:10.1007/s00360-017-1066-9
PMID:28283795
Abstract

The euryhaline milkfish (Chanos chanos) is a popular aquaculture species that can be cultured in fresh water, brackish water, or seawater in Southeast Asia. In gills of the milkfish, Na, K-ATPase (i.e., NKA; sodium pump) responds to salinity challenges including changes in mRNA abundance, protein amount, and activity. The functional pump is composed of a heterodimeric protein complex composed of α- and β-subunits. Among the NKA genes, α1-β1 isozyme comprises the major form of NKA subunits in mammalian osmoregulatory organs; however, most studies on fish gills have focused on the α1 subunit and did not verify the α1-β1 isozyme. Based on the sequenced milkfish transcriptome, an NKA β1 subunit gene was identified that had the highest amino acid homology to β233, a NKA β1 subunit paralog originally identified in the eel. Despite this high level of homology to β233, phylogenetic analysis and the fact that only a single NKA β1 subunit gene exists in the milkfish suggest that the milkfish gene should be referred to as the NKA β1 subunit gene. The results of accurate domain prediction of the β1 subunit, co-localization of α1 and β1 subunits in epithelial ionocytes, and co-immunoprecipitation of α1 and β1 subunits, indicated the formation of a α1-β1 complex in milkfish gills. Moreover, when transferred to hyposmotic media (fresh water) from seawater, parallel increases in branchial mRNA and protein expression of NKA α1 and β1 subunits suggested their roles in hypo-osmoregulation of euryhaline milkfish. This study molecularly characterized the NKA β1 subunit and provided the first evidence for an NKA α1-β1 association in gill ionocytes of euryhaline teleosts.

摘要

广盐性遮目鱼(虱目鱼)是一种受欢迎的水产养殖品种,在东南亚可在淡水、咸淡水或海水中养殖。在遮目鱼的鳃中,钠钾ATP酶(即NKA;钠泵)对盐度挑战作出反应,包括mRNA丰度、蛋白量和活性的变化。功能性泵由α和β亚基组成的异二聚体蛋白复合物构成。在NKA基因中,α1-β1同工酶是哺乳动物渗透调节器官中NKA亚基的主要形式;然而,大多数关于鱼类鳃的研究都集中在α1亚基上,并未验证α1-β1同工酶。基于已测序的遮目鱼转录组,鉴定出一个NKA β1亚基基因,它与最初在鳗鱼中鉴定出的NKA β1亚基旁系同源物β233具有最高的氨基酸同源性。尽管与β233具有高度同源性,但系统发育分析以及遮目鱼中仅存在单个NKA β1亚基基因这一事实表明,遮目鱼基因应被称为NKA β1亚基基因。β1亚基准确的结构域预测结果、α1和β1亚基在上皮离子细胞中的共定位以及α1和β1亚基的免疫共沉淀结果,表明在遮目鱼鳃中形成了α1-β1复合物。此外,当从海水转移到低渗介质(淡水)时,鳃中NKA α1和β1亚基的mRNA和蛋白表达平行增加,表明它们在广盐性遮目鱼的低渗调节中发挥作用。本研究对NKA β1亚基进行了分子表征,并首次提供了广盐性硬骨鱼鳃离子细胞中NKA α1-β1关联的证据。

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