Molecular mechanisms of mammalian sperm capacitation, and its regulation by sodium-dependent secondary active transporters.

IF 2.7 3区 医学 Q2 OBSTETRICS & GYNECOLOGY
Reproductive Medicine and Biology Pub Date : 2024-10-16 eCollection Date: 2024-01-01 DOI:10.1002/rmb2.12614
Gen L Takei
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引用次数: 0

Abstract

Background: Mammalian spermatozoa have to be "capacitated" to be fertilization-competent. Capacitation is a collective term for the physiological and biochemical changes in spermatozoa that occur within the female body. However, the regulatory mechanisms underlying capacitation have not been fully elucidated.

Methods: Previously published papers on capacitation, especially from the perspective of ions/channels/transporters, were extracted and summarized.

Results: Capacitation can be divided into two processes: earlier events (membrane potential hyperpolarization, intracellular pH rise, intracellular Ca2+ rise, etc.) and two major later events: hyperactivation and the acrosome reaction. Earlier events are closely interconnected with each other. Various channels/transporters are involved in the regulation of them, which ultimately lead to the later events. Manipulating the extracellular K+ concentration based on the oviductal concentration modifies membrane potential; however, the later events and fertilization are not affected, suggesting the uninvolvement of membrane potential in capacitation. Hyperpolarization is a highly conserved phenomenon among mammalian species, indicating its importance in capacitation. Therefore, the physiological importance of hyperpolarization apart from membrane potential is suggested.

Conclusion: The hypotheses are (1) hyperpolarizing Na+ dynamics (decrease in intracellular Na+) and Na+-driven secondary active transporters play a vital role in capacitation and (2) the sperm-specific potassium channel Slo3 is involved in volume and/or morphological regulation.

哺乳动物精子获能的分子机制及其受钠依赖性二级活性转运体的调控。
背景哺乳动物的精子必须经过 "获能 "才能具备受精能力。获能是精子在女性体内发生的生理和生化变化的总称。然而,获能的调节机制尚未完全阐明:方法:摘录并总结了以前发表的有关获能的论文,特别是从离子/通道/转运体的角度进行研究:获能可分为两个过程:早期事件(膜电位超极化、细胞内pH值升高、细胞内Ca2+升高等)和两个主要的后期事件:过度激活和顶体反应。早期事件彼此密切相关。各种通道/转运体都参与了它们的调节,最终导致后期事件的发生。根据输卵管浓度调节细胞外 K+ 浓度可改变膜电位,但后期事件和受精不受影响,这表明膜电位不参与获能过程。超极化在哺乳动物物种中是一种高度保守的现象,表明其在获能过程中的重要性。因此,除了膜电位之外,超极化也具有重要的生理意义:假设:(1) 超极化的 Na+ 动力(细胞内 Na+ 减少)和 Na+ 驱动的次级活性转运体在获能过程中发挥了重要作用;(2) 精子特异性钾通道 Slo3 参与了体积和/或形态调节。
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来源期刊
CiteScore
5.70
自引率
5.90%
发文量
53
审稿时长
20 weeks
期刊介绍: Reproductive Medicine and Biology (RMB) is the official English journal of the Japan Society for Reproductive Medicine, the Japan Society of Fertilization and Implantation, the Japan Society of Andrology, and publishes original research articles that report new findings or concepts in all aspects of reproductive phenomena in all kinds of mammals. Papers in any of the following fields will be considered: andrology, endocrinology, oncology, immunology, genetics, function of gonads and genital tracts, erectile dysfunction, gametogenesis, function of accessory sex organs, fertilization, embryogenesis, embryo manipulation, pregnancy, implantation, ontogenesis, infectious disease, contraception, etc.
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