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氰戊菊酯对小鼠精子顶体反应影响及作用机理 被引量:1

Effect of fenvalerate on sperm acrosome reaction in mice and its mechanism
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摘要 目的 观察氰戊菊酯对小鼠精子顶体反应的影响并探讨其作用机理。方法 采用顶体反应诱导试验结合细胞染毒 ,以考马斯亮蓝染色法判定精子顶体反应。结果 孕酮或A2 3187诱导的小鼠精子顶体反应 ,可被 2mmol·L- 1EDTA和 1.8mmol·L- 1Mn2 +相应地完全抑制 ;5 0 μmol·L- 1氰戊菊酯则有明显抑制作用。实验还发现氰戊菊酯在精子获能前或后加入 ,对孕酮诱发顶体反应的抑制率不同 ,获能前抑制率低 ,二者存在显著性差异。结论 氰戊菊酯对小鼠精子顶体反应有抑制作用 。 AIM To observe the effect of fenvalerate, a pyrethroid insecticide on sperm acrosome reaction in mice, and to study the mechanism of its action. METHODS The sperms treated directly with fenvalerate were stimulated by progesterone or Ca 2+ ionophore A23187, an inducer of acrosome reaction(AR). The acrosomal status was determined by light microscopy combined with Coomassie brilliant blue staining. The rate of AR of sperm was calculated. RESULTS The rise of intracellular Ca 2+ was essential in the sperm AR induced by progesterone or A23187, but the rate of AR was obviously lower when the system existed 50 μmol·L -1 fenvalerate (P<0.01). Furthermore, the study showed that the inhibition rate of AR as adding fenvalerate before capacitation was significantly lower than that after capacitation (P<0.01). CONCLUSION Fenvalerate inhibits sperm AR and may promote sperm capacitation.
作者 张习春 肖杭 张莉 王心如
机构地区 南京医科大学公共卫生学院应用毒理学研究所
出处 《中国药理学与毒理学杂志》 CAS CSCD 北大核心 2002年第1期21-24,共4页 Chinese Journal of Pharmacology and Toxicology
基金 国家自然科学基金资助项目 (30 170 811)~~
关键词 氰戊菊酯 精子 顶体反应 获能 作用机理 小鼠 影响 fenvalerate spermatozoa acrosome capacitation
分类号 R965 [医药卫生—药理学]
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参考文献10

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同被引文献25

  • 1李海峰,李五福,魏学良,李凯芳,宋艳画,高善颂.高效氯氰菊酯对雄兔睾丸及精液的生殖毒性研究[J].环境与职业医学,2006,23(3):246-248. 被引量:14
  • 2宋玲,王玉邦,孙宏,顾爱华,孙炀,王心如.氰戊菊酯体外对大鼠精子运动能力的影响[J].中华男科学杂志,2007,13(7):588-591. 被引量:9
  • 3Kelce WR, Stone CR, Laws SC, et al. Persistent DDT metabolite p, p'-DDE is a potent androgen receptor antagonist. Nature, 1995, 375 (6532) : 581-585.
  • 4Gray LE Jr, Ostby J, Cooper RL, et al. The estrogenic and antiandrogenic pesticide metbexychlor alters the reproductive tract and behavior without affecting pituitary size or LH and prolactin secretion in male rats. Toxieol Ind Health, 1999, 15(1-2) : 37- 47.
  • 5Padungtod C, Savitz DA, Overstreet JW, et al. Occupational pesticide exposure and semen quality among Chinese workers. J Occup Environ Med, 2000, 42(10): 982-992.
  • 6Sanehez-pena LC, Reyes BE, Lopez-carriUo L, et al. Organophosphorous pesticide exposure alters sperm chromatin structure in Mexican agricultural workers. Toxicol Appl Pharmacol, 2004, 196(1) : 108-113.
  • 7Kitamura S, Suzuki T, Ohta S, et al. Antiandrogenie activity and metabolism of the organophosphorus pesticide fenthion and related compounds. Environ Health Perspeet, 2003, 111 (4) : 503-508.
  • 8Okamura A, Kamijima M, Ohtani K, et al. Broken sperm, cytoplasmic droplets and reduced sperm motility are principal markers of decreased sperm quality due to organophosphorus pesticides in rats. J Occup Health, 2009, 51(6) : 478-487.
  • 9Narayana K. Methyl parathion induces the formation of symplasts by round spermatid fusion and alters the biochemical parameters in the testis. Morphologie, 2007, 91 (294) : 173-179.
  • 10Betancourt M, Resendiz A, Fierro EC. Effect of two insecticides and two herbicides on the porcine sperm motility patterns using computer-assisted semen analysis (CASA) in vitro. Reprod Toxicol, 2006, 22(3) : 508-512.

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中国药理学与毒理学杂志
2002年 第1期

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