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渗透应激诱导食蟹猴精子发生氧化细胞损伤。

Osmotic stress induces oxidative cell damage to rhesus macaque spermatozoa.

机构信息

Departments of Anatomy, Physiology, and Cell Biology, School of Veterinary Medicine, University of California, Davis, CA, USA.

出版信息

Biol Reprod. 2010 Mar;82(3):644-51. doi: 10.1095/biolreprod.109.080507. Epub 2009 Oct 21.

Abstract

Cryopreservation introduces extreme temperature and osmolality changes that impart lethal and sublethal effects on spermatozoa survival. Additionally, evidence indicates that the osmotic stress induced by cryopreservation causes oxidative stress to spermatozoa as well. Our objective was to determine the effect of reactive oxygen species (ROS) on rhesus macaque (Macaca mulatta) sperm function and to determine whether osmotic stress elicits the production of ROS. In the first experiment, the xanthine-xanthine oxidase (X-XO) system was used to generate the ROS superoxide anion (O(2)(-.)) and hydrogen peroxide (H(2)O(2)) in the presence or absence of the ROS scavengers superoxide dismutase and catalase, respectively. In the second experiment, osmotic stress was introduced by incubation of spermatozoa in a series of anisosmotic media ranging from 100 to 1000 mOsmol/kg in the presence or absence of the antioxidant alpha-tocopherol. Treatment with the X-XO system resulted in a significant increase in the generation of O(2)(-.) and H(2)O(2) that was detectable using flow cytometry. The ROS generated by the X-XO system was dose dependent, and as the concentration of ROS increased, motility decreased and lipid peroxidation increased while no affect was observed on viability. Incubation of spermatozoa in anisosmotic media also resulted in an increase in O(2)(-.) generation and lipid peroxidation that was significantly decreased in the presence of the powerful antioxidant alpha-tocopherol. These results clearly indicate that osmotic stress causes oxidative stress in rhesus macaque spermatozoa, which strongly supports the hypothesis that cryopreservation-induced osmotic stress may lead to oxidative cell damage.

摘要

冷冻保存会导致精子经历极端的温度和渗透压变化,从而对其存活造成致命和亚致死的影响。此外,有证据表明,冷冻保存引起的渗透胁迫也会导致精子发生氧化应激。我们的目的是确定活性氧(ROS)对食蟹猴(Macaca mulatta)精子功能的影响,并确定渗透胁迫是否会引发 ROS 的产生。在第一个实验中,黄嘌呤-黄嘌呤氧化酶(X-XO)系统被用来在存在或不存在 ROS 清除剂超氧化物歧化酶和过氧化氢酶的情况下产生超氧阴离子(O(2)(-.))和过氧化氢(H(2)O(2))。在第二个实验中,通过在存在或不存在抗氧化剂α-生育酚的情况下将精子在一系列从 100 到 1000 mOsmol/kg 的非等渗介质中孵育来引入渗透胁迫。用 X-XO 系统处理会导致使用流式细胞术可检测到的 O(2)(-.)和 H(2)O(2)生成显著增加。X-XO 系统产生的 ROS 呈剂量依赖性,随着 ROS 浓度的增加,运动能力下降,脂质过氧化增加,而对活力没有影响。将精子在非等渗介质中孵育也会导致 O(2)(-.)生成和脂质过氧化增加,而在存在强大的抗氧化剂α-生育酚的情况下,这种增加会显著减少。这些结果清楚地表明,渗透胁迫会导致食蟹猴精子发生氧化应激,这强烈支持冷冻保存诱导的渗透胁迫可能导致氧化细胞损伤的假设。

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