The involvements of intracellular basal calcium and membrane potential in para-phenylenediamine-impaired sperm function.

IF 1.9 3区医学 Q4 ANDROLOGY

Translational andrology and urology Pub Date : 2024-12-31 Epub Date: 2024-12-28 DOI:10.21037/tau-24-374

Yannan Chen, Tingting Yang, Xiaoling Gu, Yuqi Chen, Qingxin Wang, Xia Wang

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Abstract

Background: Para-phenylenediamine (PPD) is a crystalline solid that belongs to the aromatic amine group, widely used in the manufacturing of various dyes. PPD exhibits toxic effects on female hormone stability, ovarian function, and embryo development. Although studies have shown that PPD exposure can damage oocyte quality in female mice, research on its effects on male reproductive capability, particularly on human sperm quality and function, is limited. The purpose of this study was to investigate the effect of PPD on male semen and explore its mechanism.

Methods: Computer-assisted sperm analysis system and eosin-aniline black method were conducted to detect sperm motility and viability; sperm function was analyzed by tyrosine phosphorylation immunofluorescence staining, sperm mucus penetration capacity assay, and sperm acrosome reaction incidence; reactive oxygen species (ROS) and DNA damage were analyzed by specific kits; the transient calcium, intracellular basal calcium, and membrane potential were detected by multi-functional microplate reader after Fluo-4, Fura-10 AM and DiSC3(5) staining.

Results: PPD was shown to have a dose-dependent impact on both the motility and viability of human sperm. Furthermore, the ability of sperm to capacitate, penetrate viscous substances, and undergo acrosome reaction exhibited significant impairments in various aspects of sperm function. The impact of PPD on sperm is comparable to its effects on other bodily systems. Spermatozoon toxicity caused by PPD was found to be associated with increased levels of ROS and DNA damage, which indicated that oxidative stress plays a role in this process. Although the transient calcium response to PPD and progesterone was not disturbed, intracellular basal calcium was increased and membrane potential was depolarized after exposure of human sperm to PPD.

Conclusions: In summary, our findings suggest that increased intracellular basal calcium, hyperpolarization in the membrane potential of damaged sperm, and oxidative stress might be the underlying reasons for the decline in semen quality and dysfunction of sperm following PPD exposure.

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细胞内基底钙和膜电位在对苯二胺损伤精子功能中的作用。

背景：对苯二胺（PPD）是一种芳香胺类结晶固体，广泛用于各种染料的制造。PPD对女性激素稳定性、卵巢功能和胚胎发育具有毒性作用。虽然有研究表明，PPD暴露会损害雌性小鼠的卵母细胞质量，但关于其对雄性生殖能力，特别是对人类精子质量和功能的影响的研究有限。本研究旨在探讨PPD对男性精液的影响及其作用机制。方法：采用计算机辅助精子分析系统和伊红-苯胺黑法检测精子活力和活力；采用酪氨酸磷酸化免疫荧光染色、精子黏液穿透能力测定、精子顶体反应发生率分析精子功能；采用特异性试剂盒分析活性氧（ROS）和DNA损伤；Fluo-4、fura - 10am和DiSC3(5)染色后，用多功能微孔板仪检测瞬时钙、细胞内基底钙和膜电位。结果：PPD被证明对人类精子的活力和活力都有剂量依赖性的影响。此外，精子赋能、穿透粘性物质和进行顶体反应的能力在精子功能的各个方面都表现出显著的损伤。PPD对精子的影响与其对其他身体系统的影响相当。PPD引起的精子毒性与ROS水平升高和DNA损伤有关，这表明氧化应激在这一过程中起作用。虽然PPD和黄体酮对钙的短暂反应没有受到干扰，但PPD暴露后，细胞内基底钙增加，膜电位去极化。结论：总之，我们的研究结果表明，细胞内基底钙的增加、受损精子膜电位的超极化和氧化应激可能是PPD暴露后精子质量下降和精子功能障碍的潜在原因。

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

Translational andrology and urology Medicine-Urology

CiteScore

4.10

自引率

5.00%

发文量

期刊介绍： ranslational Andrology and Urology (Print ISSN 2223-4683; Online ISSN 2223-4691; Transl Androl Urol; TAU) is an open access, peer-reviewed, bi-monthly journal (quarterly published from Mar.2012 - Dec. 2014). The main focus of the journal is to describe new findings in the field of translational research of Andrology and Urology, provides current and practical information on basic research and clinical investigations of Andrology and Urology. Specific areas of interest include, but not limited to, molecular study, pathology, biology and technical advances related to andrology and urology. Topics cover range from evaluation, prevention, diagnosis, therapy, prognosis, rehabilitation and future challenges to urology and andrology. Contributions pertinent to urology and andrology are also included from related fields such as public health, basic sciences, education, sociology, and nursing.