Disodium malonate impairs human sperm motility by inhibiting succinate dehydrogenase activity
10.16352/j.issn.1001-6325.2024.07.0940
- VernacularTitle:丙二酸二钠通过抑制琥珀酸脱氢酶活性损伤人精子运动功能
- Author:
Zhen PENG
1
;
Qin WEN
;
Jing LU
;
Zeliang TU
;
Yimin CHENG
Author Information
1. 宜春市人民医院 药学部,江西 宜春 336000
- Keywords:
succinate dehydrogenase;
disodium malonate;
sperm function;
sperm motility
- From:
Basic & Clinical Medicine
2024;44(7):940-946
- CountryChina
- Language:Chinese
-
Abstract:
Objective To investigate the impact of succinate dehydrogenase(SDH)on the modulation of human sperm functions.Methods The isolated human sperm were co-incubated with different concentrations(10,20,40 mmol/L)of SDH inhibitor disodium malonate for one or two hours.The activity of the SDH was measured by commercially available reagent kit,while the protein level of the SDH catalytic subunit SDHA was determined through Western blot analysis.Sperm functions were analyzed:1)The impact of disodium malonate on important mo-tility parameters of un-capcitated sperm including progressive motility rate(PR),total motility(TM),average pathvelocity(VAP)and the ability of capacitated sperm to penetrate viscous media were be assessed using a com-puter aided semen analysis system.2)Effect of disodium malonate on sperm survival rate was evaluated using the Eosin-Nigrosin microscopy.3)The incidence of acrosome reaction in capacitated sperm was be detected by PSA-FITC staining assay following disodium malonate treatment.Results Disodium malonate had no effect on expression of SDH catalytic subunit SHDA protein in human sperm.However,it inhibited the catalytic activity of the SDH,sperm forward motility,total motility,and the ability of sperm to penetrate viscous media.These inhibitory effects were positively correlated with the concentration of disodium malonate.Furthermore,disodium malonate had no any influence on the occurrence of spontaneous acrosome reaction in capacitated sperm.Conclusions Disodium mal-onate impairs human sperm motility by inhibiting succinate dehydrogenase activity.
