Superior mesenteric ganglion via ovarian plexus nerve involved in the cross-talk between noradrenaline and GnRH in rat ovaries.

IF 2.1 4区医学 Q3 ANDROLOGY

Systems Biology in Reproductive Medicine Pub Date : 2023-04-01 DOI:10.1080/19396368.2022.2153096

María Belén Delsouc, Sandra Vallcaneras, Cristina Daneri Becerra, Fabián Heber Mohamed, Marina Fernández, Adriana Soledad Vega Orozco, Marilina Casais

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引用次数: 0

Abstract

There is evidence of the existence of an intraovarian gonadotropin-releasing hormone (GnRH) system. There are also reports about the influence of extrinsic ovarian innervation in gonadal function. Therefore, it is interesting to study the relationship between ovarian sympathetic innervation and GnRH to shed light on possible physiological and pathophysiological implications. This work aimed to investigate whether noradrenergic stimulation of the superior mesenteric ganglion (SMG) can modify the levels of ovarian GnRH and cause functional and morphological changes in the gonad through the ovarian plexus nerve (OPN), during estrus and diestrus II in rats. The SMG-OPN-Ovary system and an ovary without extrinsic innervation were removed from Holtzman rats in estrus and diestrus II stages and placed in specially designed cuvettes containing Krebs-Ringer buffer. In the experimental groups, SMGs and denervated ovaries were stimulated with 10^-6 M noradrenaline (NA). GnRH and progesterone levels (in the ovarian incubation medium) and the mRNA expression of 3beta-hydroxysteroid dehydrogenase (Hsd3b3), 20alpha-hydroxysteroid dehydrogenase (Akr1c18), Bax, and Bcl2 were analyzed. Histological studies of the ovaries were performed. In estrus, NA decreased GnRH levels in both experimental schemes. Furthermore, progesterone levels increased while the Akr1c18 expression and Bax/Bcl2 ratio decreased, without causing changes in ovarian morphology. In diestrus, the noradrenergic stimulation of the ganglion increased GnRH levels, decreased progesterone levels, and increased Akr1c18 expression and Bax/Bcl2 ratio. Follicles with histoarchitecture alterations and corpus luteum with signs of cell death were observed. In denervated ovaries, NA increased the levels of GnRH and progesterone. Furthermore, NA decreased the Bax/Bcl2 ratio and histological studies revealed signs compatible with a possible atretogenic effect. In conclusion, noradrenergic stimulation of the SMG-OPN pathway regulates ovarian cyclicity. The SMG modulates the cross-talk between NA and ovarian GnRH, protecting the ovary from atretogenic effects and luteal apoptosis during estrus while inducing luteal regression in the diestrus II.

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经卵巢丛神经的肠系膜上神经节参与大鼠卵巢去甲肾上腺素与GnRH的交互作用。

有证据表明存在卵巢内促性腺激素释放激素(GnRH)系统。也有关于卵巢外源性神经支配对性腺功能影响的报道。因此，研究卵巢交感神经支配与GnRH之间的关系以揭示可能的生理和病理生理意义是很有趣的。本研究旨在探讨在大鼠发情期和退情期，去甲肾上腺素能刺激肠系膜上神经节(SMG)是否能通过卵巢丛神经(OPN)改变卵巢GnRH水平并引起性腺功能和形态的改变。从处于发情期和发情期的Holtzman大鼠中取出smg - opn -卵巢系统和无外源神经支配的卵巢，置于特殊设计的含有Krebs-Ringer缓冲液的试管中。实验组用10-6 M去甲肾上腺素(NA)刺激smg和去神经卵巢。分析卵巢培养液中GnRH、孕酮水平及3 -羟类固醇脱氢酶(Hsd3b3)、20 -羟类固醇脱氢酶(Akr1c18)、Bax、Bcl2 mRNA表达。对卵巢进行组织学研究。在发情期，NA降低了两种实验方案的GnRH水平。此外，黄体酮水平升高，而Akr1c18表达和Bax/Bcl2比值降低，卵巢形态未发生变化。在妊娠期，神经节的去肾上腺素能刺激使GnRH水平升高，孕酮水平降低，Akr1c18表达和Bax/Bcl2比值升高。观察到毛囊组织结构改变和黄体细胞死亡迹象。在去神经卵巢中，NA增加GnRH和黄体酮的水平。此外，NA降低了Bax/Bcl2的比值，组织学研究显示了与可能的致癌性作用相容的迹象。综上所述，去甲肾上腺素能刺激SMG-OPN通路调节卵巢周期。SMG调节NA与卵巢GnRH之间的相互作用，保护卵巢免受发情期间的萎缩作用和黄体细胞凋亡，并在发情期诱导黄体退化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Systems Biology in Reproductive Medicine 医学-男科学

CiteScore

4.30

自引率

4.20%

发文量

审稿时长

>12 weeks

期刊介绍： Systems Biology in Reproductive Medicine, SBiRM, publishes Research Articles, Communications, Applications Notes that include protocols a Clinical Corner that includes case reports, Review Articles and Hypotheses and Letters to the Editor on human and animal reproduction. The journal will highlight the use of systems approaches including genomic, cellular, proteomic, metabolomic, bioinformatic, molecular, and biochemical, to address fundamental questions in reproductive biology, reproductive medicine, and translational research. The journal publishes research involving human and animal gametes, stem cells, developmental biology and toxicology, and clinical care in reproductive medicine. Specific areas of interest to the journal include: male factor infertility and germ cell biology, reproductive technologies (gamete micro-manipulation and cryopreservation, in vitro fertilization/embryo transfer (IVF/ET) and contraception. Research that is directed towards developing new or enhanced technologies for clinical medicine or scientific research in reproduction is of significant interest to the journal.