慈鲷大脑中三种 GnRH 神经元亚型中新型雄激素受体的表达。

IF 3.3 4区 医学 Q2 ENDOCRINOLOGY & METABOLISM Journal of Neuroendocrinology Pub Date : 2024-07-10 DOI:10.1111/jne.13429
Mélanie Dussenne, Beau A. Alward
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引用次数: 0

摘要

在长尾类动物中,GnRH1 神经元位于下丘脑-垂体-性腺轴(HPG)的顶端,该轴负责由性腺产生性类固醇(主要是雄激素)。雄激素需要与特定的受体结合才能发挥作用,这种受体被称为雄激素受体(ARs)。由于远东鱼类特有的全基因组复制,伯顿蛙拥有两个AR旁系亲属(ARα和ARβ),分别由两个不同的基因ar1和ar2编码。在 A. burtoni 中,雄性按照优势等级分层,个体的社会地位决定其生理和行为。GnRH1 神经元与支配地位和循环雄激素水平密切相关。同样,GnRH3 神经元也与雄性特定行为的表现有关。一些研究表明,这些 GnRH 神经元对循环雄激素水平的波动有反应,这表明 GnRH 神经元与 ARs 之间存在联系。虽然雌性伯顿猿不会自然形成社会等级,但其繁殖状态与雄激素水平和 GnRH1 神经元大小呈正相关。虽然有关于慈鲷 GnRH 神经元中 ar 基因表达的报道,但由于技术限制,每个 ar 基因的表达仍然没有定论。在这里,我们利用免疫组化、原位杂交连锁反应(HCR)和空间转录组学研究了 ar1 和 ar2 在 GnRH 神经元中的特异性表达。我们发现所有 GnRH1 神经元都强烈表达 ar1,但只有少数神经元表达 ar2,这表明存在基因上不同的 GnRH1 亚型。在 GnRH2 神经元中发现的 ar1 和 ar2 转录物很少。GnRH3 神经元同时表达两种 ar 基因。在 GnRH 神经元亚型中存在不同的 ar 基因,在 GnRH1 神经元中观察到的最为明显,这表明雄激素信号对这些神经元的控制存在差异。这些发现为今后研究雄激素控制 GnRH 神经元的可塑性和长尾目动物的生殖可塑性提供了有价值的见解。
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Expression of novel androgen receptors in three GnRH neuron subtypes in the cichlid brain

In teleosts, GnRH1 neurons stand at the apex of the Hypothalamo-Pituitary-Gonadal (HPG) axis, which is responsible for the production of sex steroids by the gonads (notably, androgens). To exert their actions, androgens need to bind to their specific receptors, called androgen receptors (ARs). Due to a teleost-specific whole genome duplication, A. burtoni possess two AR paralogs (ARα and ARβ) that are encoded by two different genes, ar1 and ar2, respectively. In A. burtoni, males stratify along dominance hierarchies, in which an individuals' social status determines its physiology and behavior. GnRH1 neurons have been strongly linked with dominance and circulating androgen levels. Similarly, GnRH3 neurons are implicated in the display of male specific behaviors. Some studies have shown that these GnRH neurons are responsive to fluctuations in circulating androgens levels, suggesting a link between GnRH neurons and ARs. While female A. burtoni do not naturally form a social hierarchy, their reproductive state is positively correlated to androgen levels and GnRH1 neuron size. Although there are reports related to the expression of ar genes in GnRH neurons in cichlid species, the expression of each ar gene remains inconclusive due to technical limitations. Here, we used immunohistochemistry, in situ hybridization chain reaction (HCR), and spatial transcriptomics to investigate ar1 and ar2 expression specifically in GnRH neurons. We find that all GnRH1 neurons intensely express ar1 but only a few of them express ar2, suggesting the presence of genetically-distinct GnRH1 subtypes. Very few ar1 and ar2 transcripts were found in GnRH2 neurons. GnRH3 neurons were found to express both ar genes. The presence of distinct ar genes within GnRH neuron subtypes, most clearly observed for GnRH1 neurons, suggests differential control of these neurons by androgenic signaling. These findings provide valuable insight for future studies aimed at disentangling the androgenic control of GnRH neuron plasticity and reproductive plasticity across teleosts.

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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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