Bisphenol-A disturbs hormonal levels and testis mitochondrial activity, reducing male fertility.

IF 8.3 Q1 OBSTETRICS & GYNECOLOGY Human reproduction open Pub Date : 2023-11-15 eCollection Date: 2023-01-01 DOI:10.1093/hropen/hoad044
Do-Yeal Ryu, Won-Ki Pang, Elikanah Olusayo Adegoke, Md Saidur Rahman, Yoo-Jin Park, Myung-Geol Pang
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Blastocyst formation and cleavage development rate were evaluated using IVF.</p><p><strong>Main results and the role of chance: </strong>BPA acted by binding to ERs and G protein-coupled receptors and activating the protein kinase A and mitogen-activated protein kinase signaling pathways, leading to aberrant hormone levels and effects on the respiratory chain complex, ATP synthase and protein-related apoptotic pathways in testis mitochondria (<i>P </i><<i> </i>0.05). Subsequently, embryo cleavage and blastocyst formation were reduced after the use of affected sperm, and abnormal morphology of seminiferous tubules and stage VII and VIII seminiferous epithelial cells (<i>P </i><<i> </i>0.05) was observed. It is noteworthy that histopathological lesions were detected in the testes at the LOAEL dose, even though the mice remained generally healthy and did not exhibit significant changes in BW following BPA exposure. 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引用次数: 0

Abstract

Study question: How does bisphenol-A (BPA) influence male fertility, and which mechanisms are activated following BPA exposure?

Summary answer: BPA exposure causes hormonal disruption and alters mitochondrial dynamics and activity, ultimately leading to decreased male fertility.

What is known already: As public health concerns following BPA exposure are rising globally, there is a need to understand the exact mechanisms of BPA on various diseases. BPA exposure causes hormonal imbalances and affects male fertility by binding the estrogen receptors (ERs), but the mechanism of how it mediates the hormonal dysregulation is yet to be studied.

Study design size duration: This study consisted of a comparative study using mice that were separated into a control group and a group exposed to the lowest observed adverse effect level (LOAEL) (n = 20 mice/group) after a week of acclimatization to the environment. For this study, the LOAEL established by the US Environmental Protection Agency of 50 mg/kg body weight (BW)/day of BPA was used. The control mice were given corn oil orally. Based on the daily variations in BW, both groups were gavaged every day from 6 to 11 weeks (6-week exposure). Before sampling, mice were stabilized for a week. Then, the testes and spermatozoa of each mouse were collected to investigate the effects of BPA on male fertility. IVF was carried out using the cumulus-oocyte complexes from female hybrid B6D2F1/CrljOri mice (n = 3) between the ages of eight and twelve weeks.

Participants/materials setting methods: Signaling pathways, apoptosis, and mitochondrial activity/dynamics-related proteins were evaluated by western blotting. ELISA was performed to determine the levels of sex hormones (FSH, LH, and testosterone) in serum. Hematoxylin and eosin staining was used to determine the effects of BPA on histological morphology and stage VII/VIII testicular seminiferous epithelium. Blastocyst formation and cleavage development rate were evaluated using IVF.

Main results and the role of chance: BPA acted by binding to ERs and G protein-coupled receptors and activating the protein kinase A and mitogen-activated protein kinase signaling pathways, leading to aberrant hormone levels and effects on the respiratory chain complex, ATP synthase and protein-related apoptotic pathways in testis mitochondria (P <0.05). Subsequently, embryo cleavage and blastocyst formation were reduced after the use of affected sperm, and abnormal morphology of seminiferous tubules and stage VII and VIII seminiferous epithelial cells (P <0.05) was observed. It is noteworthy that histopathological lesions were detected in the testes at the LOAEL dose, even though the mice remained generally healthy and did not exhibit significant changes in BW following BPA exposure. These observations suggest that testicular toxicity is more than a secondary outcome of compromised overall health in the mice due to systemic effects.

Large scale data: Not applicable.

Limitations reasons for caution: Since the protein expression levels in the testes were validated, in vitro studies in each testicular cell type (Leydig cells, Sertoli cells, and spermatogonial stem cells) would be required to shed further light on the exact mechanism resulting from BPA exposure. Furthermore, the BPA doses employed in this study significantly exceed the typical human exposure levels in real-life scenarios. Consequently, it is imperative to conduct experiments focusing on the effects of BPA concentrations more in line with daily human exposures to comprehensively assess their impact on testicular toxicity and mitochondrial activity.

Wider implications of the findings: These findings demonstrate that BPA exposure impacts male fertility by disrupting mitochondrial dynamics and activities in the testes and provides a solid foundation for subsequent investigations into the effects on male reproductive function and fertility following BPA exposure, and the underlying mechanisms responsible for these effects. In addition, these findings suggest that the LOAEL concentration of BPA demonstrates exceptional toxicity, especially when considering its specific impact on the testes and its adverse consequences for male fertility by impairing mitochondrial activity. Therefore, it is plausible to suggest that BPA elicits distinct toxicological responses and mechanistic endpoints based on the particular concentration levels for each target organ.

Study funding/competing interests: This work was supported by the Basic Science Research Program through the National Research Foundation of Korea (NRF) funded by the Ministry of Education (NRF-2018R1A6A1A03025159). No competing interests are declared.

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双酚a会扰乱荷尔蒙水平和睾丸线粒体活动,降低男性生育能力。
研究问题:双酚a (BPA)如何影响男性生育能力,哪些机制在BPA暴露后被激活?概要回答:BPA暴露会导致荷尔蒙紊乱,改变线粒体动力学和活动,最终导致男性生育能力下降。已知情况:随着BPA暴露引起的公共健康问题在全球范围内不断上升,有必要了解BPA对各种疾病的确切机制。BPA暴露导致激素失衡,并通过结合雌激素受体(er)影响男性生育能力,但其介导激素失调的机制尚不清楚。研究设计规模持续时间:本研究包括一项比较研究,将小鼠分为对照组和暴露于最低观察到的不良反应水平(LOAEL)的组(n = 20只/组),经过一周的环境适应。本研究采用美国环境保护署规定的双酚a最低剂量50 mg/kg体重(BW)/天。对照组小鼠口服玉米油。根据体重的日变化情况,两组小鼠每天灌胃6 ~ 11周(6周暴露)。取样前,小鼠稳定一周。然后,收集每只小鼠的睾丸和精子,研究BPA对雄性生殖能力的影响。使用8 - 12周龄的雌性杂交B6D2F1/CrljOri小鼠(n = 3)的卵母细胞复合物进行体外受精。参与者/材料设置方法:通过western blotting检测信号通路、细胞凋亡和线粒体活性/动力学相关蛋白。ELISA法测定血清中性激素(FSH、LH和睾酮)水平。采用苏木精和伊红染色法观察双酚a对睾丸VII/VIII期精原细胞组织学形态的影响。采用体外受精技术评价囊胚形成和卵裂发育率。主要结果及作用:BPA通过与er和G蛋白偶联受体结合,激活蛋白激酶A和丝裂原激活的蛋白激酶信号通路,导致激素水平异常,影响睾丸线粒体呼吸链复合体、ATP合酶和蛋白相关凋亡通路(P < 0.05)。使用受影响精子后,胚胎分裂和囊胚形成减少,精管和VII、VIII期精管上皮细胞形态出现异常(P < 0.05)。值得注意的是,在LOAEL剂量下,在睾丸中检测到组织病理学病变,尽管小鼠总体上保持健康,并且在BPA暴露后没有表现出明显的体重变化。这些观察结果表明,睾丸毒性不仅仅是由于全身效应导致小鼠整体健康受损的次要结果。大规模数据:不适用。注意的局限性:由于睾丸中的蛋白质表达水平已被证实,因此需要对每种睾丸细胞类型(间质细胞、支持细胞和精原干细胞)进行体外研究,以进一步阐明BPA暴露的确切机制。此外,本研究中使用的BPA剂量大大超过了现实生活中典型的人类暴露水平。因此,有必要开展更符合人类日常暴露的BPA浓度影响的实验,以全面评估其对睾丸毒性和线粒体活性的影响。研究结果的更广泛意义:这些发现表明BPA暴露通过破坏睾丸中的线粒体动力学和活动来影响男性生育能力,并为后续研究BPA暴露对男性生殖功能和生育能力的影响以及这些影响的潜在机制提供了坚实的基础。此外,这些发现表明BPA的LOAEL浓度表现出特殊的毒性,特别是考虑到其对睾丸的特定影响以及通过损害线粒体活性对男性生育能力的不利后果。因此,我们有理由认为,BPA会引起不同的毒理学反应和机制终点,这取决于每个靶器官的特定浓度水平。研究经费/竞争利益:本工作由教育部资助的韩国国家研究基金(NRF)基础科学研究计划(NRF- 2018r1a6a1a03025159)资助。没有宣布竞争利益。
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