斑马鱼鳃富含线粒体细胞中钙转运体亚型的表达及水钙依赖性

Expression and water calcium dependence of calcium transporter isoforms in zebrafish gill mitochondrion-rich cells.

作者信息

Liao Bo-Kai, Deng Ang-Ni, Chen Shyh-Chi, Chou Ming-Yi, Hwang Pung-Pung

机构信息

Institute of Cellular and Organismic Biology, Academia Sinica, Taipei, Taiwan, ROC.

出版信息

BMC Genomics. 2007 Oct 4;8:354. doi: 10.1186/1471-2164-8-354.

DOI:10.1186/1471-2164-8-354

PMID:17915033

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2140269/

Abstract

BACKGROUND

Freshwater fish absorb Ca2+ predominantly from ambient water, and more than 97% of Ca2+ uptake is achieved by active transport through gill mitochondrion-rich (MR) cells. In the current model for Ca2+ uptake in gill MR cells, Ca2+ passively enters the cytosol via the epithelium Ca2+ channel (ECaC), and then is extruded into the plasma through the basolateral Na+/Ca2+ exchanger (NCX) and plasma membrane Ca2+-ATPase (PMCA). However, no convincing molecular or cellular evidence has been available to support the role of specific PMCA and/or NCX isoforms in this model. Zebrafish (Danio rerio) is a good model for analyzing isoforms of a gene because of the plentiful genomic databases and expression sequence tag (EST) data.

RESULTS

Using a strategy of BLAST from the zebrafish genome database (Sanger Institute), 6 isoforms of PMCAs (PMCA1a, PMCA1b, PMCA2, PMCA3a, PMCA3b, and PMCA4) and 7 isoforms of NCXs (NCX1a, NCX1b, NCX2a, NCX2b, NCX3, NCX4a, and NCX4b) were identified. In the reverse-transcriptase polymerase chain reaction (RT-PCR) analysis, 5 PMCAs and 2 NCXs were ubiquitously expressed in various tissues including gills. Triple fluorescence in situ hybridization and immunocytochemistry showed the colocalization of zecac, zpmca2, and zncx1b mRNAs in a portion of gill MR cells (using Na+-K+-ATPase as the marker), implying a subset of ionocytes specifically responsible for the transepithelial Ca2+ uptake in zebrafish gills. The gene expressions in gills of high- or low-Ca2+-acclimated zebrafish by quantitative real-time PCR analysis showed that zecac was the only gene regulated in response to environmental Ca2+ levels, while zpmcas and zncxs remained steady.

CONCLUSION

The present study provides molecular evidence for the specific isoforms of Ca2+ transporters, zECaC, zPMCA2, and zNCX1b, supporting the current Ca2+ uptake model, in which ECaC may play a role as the major regulatory target for this mechanism during environmental challenge.

摘要

背景

淡水鱼主要从周围水体中吸收Ca2+，超过97%的Ca2+摄取是通过鳃富含线粒体的（MR）细胞的主动转运实现的。在当前鳃MR细胞Ca2+摄取模型中，Ca2+通过上皮Ca2+通道（ECaC）被动进入细胞质，然后通过基底外侧Na+/Ca2+交换体（NCX）和质膜Ca2+-ATP酶（PMCA）被挤出到血浆中。然而，尚无令人信服的分子或细胞证据支持该模型中特定PMCA和/或NCX亚型的作用。斑马鱼（Danio rerio）由于拥有丰富的基因组数据库和表达序列标签（EST）数据，是分析基因亚型的良好模型。

结果

利用来自斑马鱼基因组数据库（桑格研究所）的BLAST策略，鉴定出6种PMCA亚型（PMCA1a、PMCA1b、PMCA2、PMCA3a、PMCA3b和PMCA4）和7种NCX亚型（NCX1a、NCX1b、NCX2a、NCX2b、NCX3、NCX4a和NCX4b）。在逆转录聚合酶链反应（RT-PCR）分析中，5种PMCA和2种NCX在包括鳃在内的各种组织中普遍表达。三重荧光原位杂交和免疫细胞化学显示zecac、zpmca2和zncx1b mRNA在一部分鳃MR细胞（以Na+-K+-ATP酶为标记）中共定位，这意味着离子细胞的一个亚群专门负责斑马鱼鳃中的跨上皮Ca2+摄取。通过定量实时PCR分析高钙或低钙适应的斑马鱼鳃中的基因表达表明，zecac是唯一响应环境Ca2+水平而被调节的基因，而zpmcas和zncxs保持稳定。

结论

本研究为Ca2+转运体的特定亚型zECaC、zPMCA2和zNCX1b提供了分子证据，支持当前的Ca2+摄取模型，其中ECaC可能在环境挑战期间作为该机制的主要调节靶点发挥作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b487/2140269/5f63ef9fe964/1471-2164-8-354-1.jpg

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斑马鱼鳃富含线粒体细胞中钙转运体亚型的表达及水钙依赖性

Expression and water calcium dependence of calcium transporter isoforms in zebrafish gill mitochondrion-rich cells.

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