Endocrine control of gill ionocyte function in euryhaline fishes.

IF 1.7 3区 生物学 Q4 PHYSIOLOGY
Jason P Breves, Ciaran A Shaughnessy
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引用次数: 0

Abstract

The endocrine system is an essential regulator of the osmoregulatory organs that enable euryhaline fishes to maintain hydromineral balance in a broad range of environmental salinities. Because branchial ionocytes are the primary site for the active exchange of Na+, Cl-, and Ca2+ with the external environment, their functional regulation is inextricably linked with adaptive responses to changes in salinity. Here, we review the molecular-level processes that connect osmoregulatory hormones with branchial ion transport. We focus on how factors such as prolactin, growth hormone, cortisol, and insulin-like growth-factors operate through their cognate receptors to direct the expression of specific ion transporters/channels, Na+/K+-ATPases, tight-junction proteins, and aquaporins in ion-absorptive (freshwater-type) and ion-secretory (seawater-type) ionocytes. While these connections have historically been deduced in teleost models, more recently, increased attention has been given to understanding the nature of these connections in basal lineages. We conclude our review by proposing areas for future investigation that aim to fill gaps in the collective understanding of how hormonal signaling underlies ionocyte-based processes.

Abstract Image

极海洋鱼类鳃离子细胞功能的内分泌控制
内分泌系统是渗透调节器官的重要调节器,它使极海洋鱼类能够在广泛的环境盐度范围内维持水矿物质平衡。由于鳃支离子细胞是 Na+、Cl- 和 Ca2+ 与外界环境进行主动交换的主要场所,因此它们的功能调节与对盐度变化的适应性反应密不可分。在此,我们回顾了渗透调节激素与支气管离子转运之间的分子水平过程。我们重点关注催乳素、生长激素、皮质醇和类胰岛素生长因子等因子如何通过其同源受体引导特定离子转运体/通道、Na+/K+-ATP 酶、紧密连接蛋白和水蒸发蛋白在离子吸收性(淡水型)和离子分泌性(海水型)离子细胞中的表达。虽然这些连接历来是在远摄动物模型中推导出来的,但最近,人们越来越关注了解这些连接在基底细胞系中的性质。最后,我们提出了未来的研究领域,以填补对激素信号如何支持基于离子体的过程的集体认识的空白。
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来源期刊
CiteScore
3.90
自引率
0.00%
发文量
51
审稿时长
3.5 months
期刊介绍: The Journal of Comparative Physiology B publishes peer-reviewed original articles and reviews on the comparative physiology of invertebrate and vertebrate animals. Special emphasis is placed on integrative studies that elucidate mechanisms at the whole-animal, organ, tissue, cellular and/or molecular levels. Review papers report on the current state of knowledge in an area of comparative physiology, and directions in which future research is needed.
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