药物抑制 KSper 会损害人类精子鞭毛的 pH 平衡。

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-11-05 DOI:10.1111/andr.13796

Nanxi Ji, Xiaorong Wang, Xuhui Zeng, Hang Kang

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引用次数: 0

摘要

背景：精子特异性钾通道（KSper）由形成孔隙的亚基 SLO3 和辅助亚基 LRRC52 组成，对精子的生育能力至关重要。小鼠和人类缺乏 KSper 会导致精子功能严重受损，包括精子活动力亢进和顶体反应。以前的报道表明，小鼠 KSper 可能通过影响精子细胞内 pH 值（pHi）来调节精子功能。然而，人KSper（hKSper）调节精子功能的确切信号机制尚不清楚：探索 hKSper 对精子鞭毛 pHi 的调控作用：在一年时间内招募了 50 多名捐精者。正如我们之前的工作中所报告的，我们通过对装有 pH 指示剂 pHrodo Red 的人类精子进行单细胞 pH 荧光记录，定量测量了鞭毛 pHi。我们使用了三种不同的hKSper拮抗剂，包括氯氟噻嗪、奎尼丁和LRRC52多克隆抗体（LID1），来评估抑制hKSper对精子鞭毛pHi的影响：鉴于 hKSper 在调节膜电位（Em）方面的主要作用，我们首先检测到氯纤矾和奎尼丁诱发的 Em 发生了相当程度的去极化（约 25-30 mV）。随后的研究表明，人类精子的鞭毛 pHi 值在氯纤毛虫（50 µM，从 7.13 ± 0.11 降至 6.43 ± 0.12）、奎尼丁（500 µM，从 7.00 ± 0.11 降至 6.64 ± 0.08）和 LID1（20 µg/mL，从 6.98 ± 0.16 降至 6.67 ± 0.22）的作用下显著降低。此外，我们还发现，当人类精子与高 K+ 溶液（135 mM）预孵育时，由氯纤霉素和奎尼丁诱发的 Em 去极化和鞭毛 pHi 酸化均被取消。此外，我们还发现细胞外用N-甲基-D-葡萄糖胺替代Na+可消除抑制hKSper诱发的pHi酸化：我们的研究结果表明，抑制hKSper可诱发人类精子鞭毛pHi酸化，这表明鞭毛pHi维持是hKSper调控精子功能的重要信号机制。

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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Pharmacological inhibition of KSper impairs flagellar pH homeostasis of human spermatozoa.

Background: Sperm-specific potassium channel (KSper) comprised of pore-forming subunit SLO3 and auxiliary subunit LRRC52 is of importance for sperm fertility. The deficiency of KSper in both mice and humans resulted in severe impairments of sperm functions including sperm hyperactivity and acrosome reaction. Previous reports suggested that mouse KSper modulated sperm function possibly by affecting sperm intracellular pH (pH_i). However, the precise signaling mechanism of human KSper (hKSper) on the regulation of sperm functions was largely unclear.

Objective: To explore the regulatory role of hKSper on sperm flagellar pH_i.

Materials and methods: More than 50 sperm donors were recruited during a period of 1 year. As reported in our previous work, we quantitatively measured flagellar pH_i by employing a single-cell pH fluorescent recording on human spermatozoa loaded with pH indicator pHrodo Red. Three different hKSper antagonists including clofilium, quinidine, and a polyclonal antibody of LRRC52 (LID1) were utilized to evaluate the effect of hKSper inhibition on sperm flagellar pH_i.

Results: Given the predominant role of hKSper on the regulation of membrane potential (Em), we first detected a considerable depolarization (about 25-30 mV) of Em evoked by clofilium and quinidine. Subsequently, it was shown that flagellar pH_i values of human spermatozoa were significantly decreased by the treatment of clofilium (50 µM, from 7.13 ± 0.11 to 6.43 ± 0.12), quinidine (500 µM, from 7.00 ± 0.11 to 6.64 ± 0.08) and LID1 (20 µg/mL, from 6.98 ± 0.16 to 6.67 ± 0.22). Moreover, we found that when human spermatozoa were pre-incubated with a high K⁺ solution (135 mM), both the depolarization of Em and the acidification of flagellar pH_i evoked by clofilium and quinidine were abolished. In addition, we found that extracellular substitution of N-methyl-D-glucamine for Na⁺ abolished pH_i acidification induced by hKSper inhibition.

Discussion and conclusion: Our results demonstrate that hKSper inhibition evokes flagellar pH_i acidification of human spermatozoa, suggesting that flagellar pH_i maintenance is an important signaling mechanism of hKSper on the regulation of sperm functions.

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来源期刊

ACS Applied Electronic Materials Multiple-

CiteScore

7.20

自引率

4.30%

发文量

567