雌二醇受体信号转导在嗜光类中是否存在潜力?

IF 2.1 3区 医学 Q3 ENDOCRINOLOGY & METABOLISM
A.M. Murillo Ramos, J.Y. Wilson
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引用次数: 0

摘要

雌激素受体(ERs)被认为是所有类固醇受体的祖先,存在于迄今为止研究过的大多数软体动物、无脊类动物和轮虫中。有许多研究调查了雌激素受体在无脊椎动物中的功能作用,但大多数研究都是在软体动物中进行的,因为这些动物的受体具有组成活性。体外实验提供了无脊椎动物中配体激活的雌激素受体的证据,从而提出了关于雌激素信号在叶绿体系中的作用的重要问题。在这里,我们回顾了雌二醇受体信号传导在环节动物中的一致和不一致证据,重点是环带动物和轮虫。我们探讨了雌激素的从头合成、雌激素受体的进化和表达,以及雌激素受体激活后在环节动物门和轮虫中的生理反应。要确定非软体动物的雌二醇是否可能从头开始生物合成,还缺少关键数据。例如,存在 CYP11 基因的直向同源物,但缺乏底物转换和组织产物测定的确认。缺乏 CYP17 和 CYP19 的直向同源基因,但组织中的中间产物或产品(如雌二醇)已被测出。雌激素受体存在于多个物种中,对于数量有限的受体,体外数据显示了雌二醇的激动剂结合和/或转录激活。嗜水生动物雌激素受体的表达模式表明其具有发育、生殖和消化作用,但与物种密切相关。雌二醇暴露表明,嗜水生动物ERs可能在繁殖过程中发挥作用,但尚未确定强烈的剂量-反应关系。因此,我们预计,除了扁形动物之外,大多数食肉动物都有ER,但它们的生理作用仍然难以捉摸。为了更好地评估嗜光原生动物是否能够生物合成雌二醇,我们需要挖掘基因组中负责类固醇生成的同源基因家族,并对类固醇途径进行体外和体内研究。一个主要的挑战是,许多数据被划分到不同的物种中。我们建议,多毛类 Capitella teleta 或 Platyneris dumerilii 以及轮虫 Brachionus manjavacas 可能是研究雌激素受体信号的有力物种选择,因为它们拥有可用的基因组数据、成熟的实验室培养技术以及基因敲除潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Is there potential for estradiol receptor signaling in lophotrochozoans?

Estrogen receptors (ERs) are thought to be the ancestor of all steroid receptors and are present in most lophotrochozoans studied to date, including molluscs, annelids, and rotifers. A number of studies have investigated the functional role of estrogen receptors in invertebrate species, although most are in molluscs, where the receptor is constitutively active. In vitro experiments provided evidence for ligand-activated estrogen receptors in annelids, raising important questions about the role of estrogen signalling in lophotrochozoan lineages. Here, we review the concordant and discordant evidence of estradiol receptor signalling in lophotrochozoans, with a focus on annelids and rotifers. We explore the de novo synthesis of estrogens, the evolution and expression of estrogen receptors, and physiological responses to activation of estrogen receptors in the lophotrochozoan phyla Annelida and Rotifera. Key data are missing to determine if de novo biosynthesis of estradiol in non-molluscan lophotrochozoans is likely. For example, an ortholog for the CYP11 gene is present, but confirmation of substrate conversion and measured tissue products is lacking. Orthologs CYP17 and CYP19 are lacking, yet intermediates or products (e.g. estradiol) in tissues have been measured. Estrogen receptors are present in multiple species, and for a limited number, in vitro data show agonist binding of estradiol and/or transcriptional activation. The expression patterns of the lophotrochozoan ERs suggest developmental, reproductive, and digestive roles but are highly species dependent. E2 exposures suggest that lophotrochozoan ERs may play a role in reproduction, but no strong dose–response relationship has been established. Therefore, we expect most lophotrochozoan species, outside of perhaps platyhelminths, to have an ER but their physiological role remains elusive. Mining genomes for orthologs gene families responsible for steroidogenesis, coupled with in vitro and in vivo studies of the steroid pathway are needed to better assess whether lophotrochozoans are capable of estradiol biosynthesis. One major challenge is that much of the data are divided across a diversity of species. We propose that the polychaetes Capitella teleta or Platyneris dumerilii, and rotifer Brachionus manjavacas may be strong species choices for studies of estrogen receptor signalling, because of available genomic data, established laboratory culture techniques, and gene knockout potential.

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来源期刊
General and comparative endocrinology
General and comparative endocrinology 医学-内分泌学与代谢
CiteScore
5.60
自引率
7.40%
发文量
120
审稿时长
2 months
期刊介绍: General and Comparative Endocrinology publishes articles concerned with the many complexities of vertebrate and invertebrate endocrine systems at the sub-molecular, molecular, cellular and organismal levels of analysis.
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