Dynamic elementomics of single-cell ICP-MS-derived signals in normal and calcium pump PMCA4-deficient mouse epididymal sperm during capacitation.

IF 2.9 3区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Metallomics Pub Date : 2023-10-04 DOI:10.1093/mtomcs/mfad059
Bao Li Zhang, Ze Peng Zhang, Su Meng Shi, Hui Juan Shi, Patricia A DeLeon, Winnie Shum
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Abstract

Currently, clinical analysis of male infertility mainly relies on parameters of semen and sperm cells. However, the high diagnostic failure rates indicate that the current assessment methods are not sufficient and a new approach to evaluating sperm function still needs to be developed. Here we explored the feasibility of single-cell inductively coupled plasma mass spectrometry (sc-ICP-MS)-derived profiles to determine the elemental characteristics in viable capacitated sperm under normal and deficient conditions. To validate the measurements, we used male sterile Pmca4-knockout (KO) mice with impaired calcium clearance, known to be dysregulated due to loss of calcium efflux capacity during sperm capacitation. Consistently, we observed significantly increased calcium intensities in Pmca4-KO sperm upon capacitation stimulation compared with control sperm from the caudaepididymides of wild-type control (WT) mice. More importantly, we explored that the characteristic signatures of calcium intensities in individual spikes derived from sc-ICP-MS was consistent with the dynamics of relative calcium levels in single sperm reported in the literature. Prominent alterations were also observed in the dynamic signatures of sc-ICP-MS-derived profiles of essential elements, particularly the redox-labile elements including copper, iron, manganese, selenium, and zinc in Pmca4-KO sperm compared to WT controls. Therefore, our study demonstrates that elementomics of sc-ICP-MS-derived signals can reveal ionic dysregulation in plasma membrane Ca2+-ATPase isoform 4 protein deficient sperm, and that sc-ICP-MS assay can be applied for functional analysis of viable sperm in functional activities, such as capacitation stimulation. We propose that cell elementomics can be used as an alternative approach to assessing sperm quality and male fertility at the single-cell level.

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正常和钙泵PMCA4缺陷小鼠附睾精子获能过程中单细胞ICP-MS衍生信号的动态元素组学。
目前,男性不育的临床分析主要依赖于精液和精子细胞的参数。然而,高诊断失败率表明,目前的评估方法还不够,评估精子功能的新方法仍需开发。在这里,我们探索了单细胞电感耦合等离子体质谱(sc-ICP-MS)衍生图谱的可行性,以确定正常和缺陷条件下活获能精子的元素特征。为了验证测量结果,我们使用了钙清除受损的雄性不育Pmca4-KO小鼠,已知由于精子获能过程中钙流出能力的丧失而失调。一致地,我们观察到,与野生型对照(WT)小鼠附睾尾的对照精子相比,在获能刺激后,Pmca4-KO精子中的钙强度显著增加。更重要的是,我们探索了sc-ICP-MS衍生的单个尖峰中钙强度的特征特征与文献中报道的单个精子中相对钙水平的动力学一致。与WT对照相比,在Pmca4-KO精子中的sc-ICP-MS衍生的必需元素,特别是氧化还原不稳定元素,包括铜、铁、锰、硒和锌的动态特征中也观察到显著的变化。因此,我们的研究表明,sc-ICP-MS衍生信号的元素组学可以揭示PMCA4缺陷精子中的离子失调,并且sc-ICP-MS测定可以应用于功能活动(如获能刺激)中活精子的功能分析。我们提出,细胞元素组学可以作为一种替代方法,在单细胞水平上评估精子质量和男性生育能力。
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
Metallomics
Metallomics 生物-生化与分子生物学
CiteScore
7.00
自引率
5.90%
发文量
87
审稿时长
1 months
期刊介绍: Global approaches to metals in the biosciences
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