出生后雌鼠弓状吻肽和 GABA 神经元中性腺激素受体的发育表达模式

IF 3.3 4区 医学 Q2 ENDOCRINOLOGY & METABOLISM
Yugo Watanabe, Lorryn Fisher, Rebecca E Campbell, Christine L Jasoni
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引用次数: 0

摘要

下丘脑弓状核(ARC)通过将性腺类固醇激素线索转化为大脑中的 GnRH 信号通路,在生育和生殖的神经元调控中起着核心作用。有证据表明,在发育期和成年期,循环中的性腺类固醇通过 ARC 中的吻肽和γ-氨基丁酸(GABA)神经元在调节雌性生殖方面发挥着重要作用。然而,这些 ARC 神经元对性腺类固醇的敏感性在何时开始尚不清楚。我们使用 RNAscope® 原位杂交技术定位了出生后第 4 天、第 8 天、第 12 天、第 20 天和第 60 天雌性小鼠 ARC 吻抑素或 GABA 神经元中雄激素受体 (Ar)、雌激素受体 alpha (Esr1) 和孕酮受体 (Pgr) 的表达。使用与kiss1 mRNA或vGat mRNA结合的探针分别在kisspeptin或GABA神经元中产生信号。在成体中,我们发现绝大多数的kisspeptin神经元共表达Esr1(95%)和Pgr(93%),而小部分共表达Ar(66%)。从 P4 开始,Ar 或 Esr1 阳性的吻肽素神经元比例相似,这表明吻肽素神经元在出生后早期就对雄激素和雌激素产生了类似成人的敏感性。与此相反,生命早期 Pgr 阳性的吻肽素细胞比例明显低于成年期,这表明随着时间的推移,ARC 吻肽素群体对黄体酮的敏感性会逐渐发展。成年后,ARC GABA神经元也与Ar(70%)、Esr1(64%)或Pgr(85%)共定位。GABA 神经元从出生后阶段到成年期持续表达 Esr1 或 Pgr,而 Ar 阳性 GABA 神经元的比例则从 P4(24%)逐渐增加到 P20(59%)。这些结果表明,虽然 ARC GABA 神经元从出生后早期就能对循环中的雌激素和孕激素做出反应,但在出生后晚期,这部分神经元可能会对雄激素变得更加敏感。我们的研究结果确定了 ARC 吻肽和 GABA 神经元在出生后早期的 Ar、Esr1 和 Pgr 表达模式。这些数据有助于了解这些神经元在出生后早期对激素的敏感性,而出生后早期正是女性生殖生理形成和调节的关键时期。从P4开始,Ar-或Esr1阳性的吻肽素神经元比例相似,这表明吻肽素神经元在出生后早期就对雄激素和雌激素产生了类似成人的敏感性。与此相反,生命早期 Pgr 阳性的吻肽素细胞比例明显低于成年期,这表明随着时间的推移,ARC 吻肽素群体对黄体酮的敏感性会逐渐发展。成年后,ARC GABA神经元也与Ar(70%)、Esr1(64%)或Pgr(85%)共定位。GABA 神经元从出生后阶段到成年期持续表达 Esr1 或 Pgr,而 Ar 阳性 GABA 神经元的比例则从 P4(24%)逐渐增加到 P20(59%)。这些结果表明,虽然 ARC GABA 神经元从出生后早期就能对循环中的雌激素和孕激素做出反应,但在出生后晚期,这部分神经元可能会对雄激素变得更加敏感。我们的研究结果确定了 ARC 吻肽和 GABA 神经元在出生后早期的 Ar、Esr1 和 Pgr 表达模式。这些数据有助于了解这些神经元在出生后早期对激素的敏感性,而出生后早期正是女性生殖生理形成和调节的关键时期。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Developmental expression patterns of gonadal hormone receptors in arcuate kisspeptin and GABA neurons of the postnatal female mouse.

The arcuate nucleus of the hypothalamus (ARC) is central in the neuronal regulation of fertility and reproduction through translating gonadal steroid hormone cues into the GnRH signaling pathway in the brain. Evidence suggests that circulating gonadal steroids play an important role in modulating female reproduction via kisspeptin and γ-aminobutyric acid (GABA) neurons in the ARC in both development and adulthood. However, the temporal onset of these ARC neurons' sensitivity to gonadal steroids is unknown. Using RNAscope® in situ hybridization, we localized androgen receptor (Ar), estrogen receptor alpha (Esr1), and progesterone receptor (Pgr) expression in ARC kisspeptin or GABA neurons of female mice at postnatal day (P)4, P8, P12, P20, and P60. A probe that binds to kiss1 mRNA or vGat mRNA was used to produce signal in kisspeptin or GABA neurons, respectively. In adult, we identified that the vast majority of kisspeptin neurons coexpressed Esr1 (95%) and Pgr (93%), while a smaller proportion coexpressed Ar (66%). Similar proportions of Ar- or Esr1-positive kisspeptin neurons were seen from P4, suggesting that kisspeptin neurons develop adult-like sensitivity to androgen and estrogen in early postnatal life. In contrast, the proportion of Pgr-positive kisspeptin cells in early life was significantly lower than in adulthood, suggesting that progesterone sensitivity develops over time in the ARC kisspeptin population. ARC GABA neurons also colocalized with Ar (70%), Esr1 (64%), or Pgr (85%) in adulthood. GABA neurons continuously expressed Esr1 or Pgr from the postnatal stages to adulthood, while the proportion of Ar-positive GABA neurons gradually increased from P4 (24%) to P20 (59%). These results suggest that while ARC GABA neurons can respond to circulating estrogen and progesterone from early postnatal ages, this same population may become more sensitive to androgens during later postnatal life. Our findings identified the expression patterns of Ar, Esr1, and Pgr by ARC kisspeptin and GABA neurons during early postnatal life. These data provide the understanding for the hormone sensitivity of these populations during early postnatal life, the critical time for the formation and regulation of female reproductive physiology.Esr1 (95%) and Pgr (93%), while a smaller proportion coexpressed Ar (66%). Similar proportions of Ar- or Esr1-positive kisspeptin neurons were seen from P4, suggesting that kisspeptin neurons develop adult-like sensitivity to androgen and estrogen in early postnatal life. In contrast, the proportion of Pgr-positive kisspeptin cells in early life was significantly lower than in adulthood, suggesting that progesterone sensitivity develops over time in the ARC kisspeptin population. ARC GABA neurons also colocalized with Ar (70%), Esr1 (64%), or Pgr (85%) in adulthood. GABA neurons continuously expressed Esr1 or Pgr from the postnatal stages to adulthood, while the proportion of Ar-positive GABA neurons gradually increased from P4 (24%) to P20 (59%). These results suggest that while ARC GABA neurons can respond to circulating estrogen and progesterone from early postnatal ages, this same population may become more sensitive to androgens during later postnatal life. Our findings identified the expression patterns of Ar, Esr1, and Pgr by ARC kisspeptin and GABA neurons during early postnatal life. These data provide the understanding for the hormone sensitivity of these populations during early postnatal life, the critical time for the formation and regulation of female reproductive physiology.

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来源期刊
Journal of Neuroendocrinology
Journal of Neuroendocrinology 医学-内分泌学与代谢
CiteScore
6.40
自引率
6.20%
发文量
137
审稿时长
4-8 weeks
期刊介绍: Journal of Neuroendocrinology provides the principal international focus for the newest ideas in classical neuroendocrinology and its expanding interface with the regulation of behavioural, cognitive, developmental, degenerative and metabolic processes. Through the rapid publication of original manuscripts and provocative review articles, it provides essential reading for basic scientists and clinicians researching in this rapidly expanding field. In determining content, the primary considerations are excellence, relevance and novelty. While Journal of Neuroendocrinology reflects the broad scientific and clinical interests of the BSN membership, the editorial team, led by Professor Julian Mercer, ensures that the journal’s ethos, authorship, content and purpose are those expected of a leading international publication.
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