产前雄激素过多对女性和男性后代产生多代影响

IF 2.7 Q3 ENDOCRINOLOGY & METABOLISM
Giselle Adriana Abruzzese, Silvana Rocio Ferreira, Maria José Ferrer, Aimé Florencia Silva, Alicia Beatriz Motta
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引用次数: 0

摘要

背景:荷尔蒙的变化如何影响发育中的生物体及其后代,目前尚无定论。尤其是雄激素水平的影响与临床相关,因为患有多囊卵巢综合症(PCOS)的女性体内雄激素水平通常较高。此外,雄激素对男性健康及其后代的影响尚不清楚:我们旨在评估产前雄激素过多对第二代早期发育阶段的多代影响,同时考虑母系和父系的影响:这是一项动物模型研究。雌性大鼠(F0)在怀孕期间通过注射 1 毫克睾酮暴露于雄激素,从而获得产前雄激素过高(PH)动物(F1),这就是著名的类似多囊卵巢综合征特征的动物模型。对照组(C)通过注射药物获得。PH-F1 动物与 C 组雄性(m)或雌性(f)杂交,C 组动物也进行交配,从而得到 3 个不同的交配组:结果:结果:与F1-C雌鼠相比,F1-PHf的糖代谢和血脂谱发生了改变。此外,与 C 组相比,F1-PHf 与对照雄性交配的时间延长。在妊娠第 14 天,我们发现与 F1-PHm 交配的 F1-PHf 和 Cf 孕妇的血糖和总胆固醇血清水平以及胎盘大小发生了变化。结论:宫内雄激素暴露会导致雌性和雄性产生程序效应,以性别依赖的方式影响后代的健康,至少影响到第二代。此外,这项研究还表明,父系介导的效应会影响子二代的发育。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Prenatal Androgen Excess Induces Multigenerational Effects on Female and Male Descendants.

Prenatal Androgen Excess Induces Multigenerational Effects on Female and Male Descendants.

Prenatal Androgen Excess Induces Multigenerational Effects on Female and Male Descendants.

Prenatal Androgen Excess Induces Multigenerational Effects on Female and Male Descendants.

Background: It is still unelucidated how hormonal alterations affect developing organisms and their descendants. Particularly, the effects of androgen levels are of clinical relevance as they are usually high in women with Polycystic Ovary Syndrome (PCOS). Moreover, it is still unknown how androgens may affect males' health and their descendants.

Objectives: We aimed to evaluate the multigenerational effect of prenatal androgen excess until a second generation at early developmental stages considering both maternal and paternal effects.

Design and methods: This is an animal model study. Female rats (F0) were exposed to androgens during pregnancy by injections of 1 mg of testosterone to obtain prenatally hyperandrogenized (PH) animals (F1), leading to a well-known animal model that resembles PCOS features. A control (C) group was obtained by vehicle injections. The PH-F1 animals were crossed with C males (m) or females (f) and C animals were also mated, thus obtaining 3 different mating groups: Cf × Cm, PHf × Cm, Cf × PHm and their offspring (F2).

Results: F1-PHf presented altered glucose metabolism and lipid profile compared to F1-C females. In addition, F1-PHf showed an increased time to mating with control males compared to the C group. At gestational day 14, we found alterations in glucose and total cholesterol serum levels and in the placental size of the pregnant F1-PHf and Cf mated to F1-PHm. The F2 offspring resulting from F1-PH mothers or fathers showed alterations in their growth, size, and glucose metabolism up to early post-natal development in a sex-dependent manner, being the females born to F1-PHf the most affected ones.

Conclusion: androgen exposure during intrauterine life leads to programing effects in females and males that affect offspring health in a sex-dependent manner, at least up-to a second generation. In addition, this study suggests paternally mediated effects on the F2 offspring development.

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CiteScore
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