Hypoxia-inducible factor inhibition affects luteal function with no effect on fertility in mice.

IF 3.7 3区生物学 Q1 DEVELOPMENTAL BIOLOGY

Reproduction Pub Date : 2025-01-21 Print Date: 2024-02-01 DOI:10.1530/REP-24-0313

Rocío Celeste Marinoni, María José España De Marco, Candela Velazquez, Katherine Prost, Fernanda Parborell, Marta Tesone, Dalhia Abramovich

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Abstract

In brief: Formation and function of the corpus luteum strongly rely on active angiogenesis. This study demonstrates the role of the hypoxia-inducible factor (HIF) in luteinization with no effect on fertility.

Abstract: HIFs are transcription factors responsible for sensing low oxygen levels and, in response, inducing the transcription of numerous genes. One of the main processes stimulated by HIFs is the formation of new vessels to increase oxygen supply to the tissue. Formation of the corpus luteum strongly depends on the vasculature, and active angiogenesis occurs during luteinization. In this study, we aimed to analyze the role of HIF in the early formation of corpus luteum and its function, and in female fertility. To this aim, we superovulated mice using equine chorionic gonadotropin and human chorionic gonadotropin (hCG) and administered the HIF inhibitor acriflavine (ACF) to the mice 3 h before hCG. We found a decrease in ovarian HIF1A and VEGFA and in the vascular area in the animals treated with ACF. Moreover, we observed an increase in aberrant structures in the ovaries and in luteal cell apoptosis. Serum progesterone levels were decreased together with ovarian STAR expression. However, the animals treated with ACF during the early formation of the corpus luteum were completely fertile and no alterations were observed when the treated females were mated with fertile males. These results collectively suggest that HIF regulates gonadotropin-induced corpus luteum formation by acting on luteal blood vessel formation, luteal cell survival and progesterone synthesis. However, adequate HIF activity may not be essential to achieve and maintain pregnancy. These findings are significant to better understand the complex mechanisms of corpus luteum formation and identify potential abnormalities to allow better knowledge of ovarian physiology and pathologies in which this factor could be involved.

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低氧诱导因子抑制小鼠黄体功能，对生育能力无影响。

缺氧诱导因子（hif）是负责感知低氧水平的转录因子，并在响应中诱导许多基因的转录。hfs刺激的主要过程之一是新血管的形成，以增加组织的氧气供应。黄体的形成强烈依赖于脉管系统，在黄体化过程中血管生成活跃。在本研究中，我们旨在分析HIF在黄体早期形成和功能以及女性生育能力中的作用。为此，我们通过eCG和hCG检测小鼠超排卵，并在hCG前3小时给药HIF抑制剂吖啶黄碱（ACF）。我们发现在ACF治疗的动物中，卵巢HIF1A和VEGFA以及血管区域都有所下降。此外，我们还观察到卵巢异常结构和黄体细胞凋亡的增加。血清黄体酮水平降低，卵巢STAR表达降低。然而，在黄体形成早期接受ACF治疗的动物是完全可生育的，当接受治疗的雌性与可生育的雄性交配时，没有观察到任何变化。这些结果共同表明，HIF调节促性腺激素诱导的黄体形成，作用于黄体血管形成、黄体细胞存活和黄体激素合成。然而，足够的HIF活动可能不是实现和维持妊娠所必需的。这些发现对于更好地理解黄体形成的复杂机制和识别潜在的异常具有重要意义，从而更好地了解可能涉及该因素的卵巢生理和病理。

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

Reproduction 生物-发育生物学

CiteScore

7.40

自引率

2.60%

发文量

199

审稿时长

4-8 weeks

期刊介绍： Reproduction is the official journal of the Society of Reproduction and Fertility (SRF). It was formed in 2001 when the Society merged its two journals, the Journal of Reproduction and Fertility and Reviews of Reproduction. Reproduction publishes original research articles and topical reviews on the subject of reproductive and developmental biology, and reproductive medicine. The journal will consider publication of high-quality meta-analyses; these should be submitted to the research papers category. The journal considers studies in humans and all animal species, and will publish clinical studies if they advance our understanding of the underlying causes and/or mechanisms of disease. Scientific excellence and broad interest to our readership are the most important criteria during the peer review process. The journal publishes articles that make a clear advance in the field, whether of mechanistic, descriptive or technical focus. Articles that substantiate new or controversial reports are welcomed if they are noteworthy and advance the field. Topics include, but are not limited to, reproductive immunology, reproductive toxicology, stem cells, environmental effects on reproductive potential and health (eg obesity), extracellular vesicles, fertility preservation and epigenetic effects on reproductive and developmental processes.