Evangelista-Vargas S, Santiani A
Faculty of Veterinary and Biological Sciences, Laboratory of Reproductive and Cellular Biotechnologies, Universidad Científica del Sur, Lima, Perú.
Faculty of Veterinary Medicine, Laboratory of Animal Reproduction, Universidad Nacional Mayor de San Marcos, Lima, Perú.
Reprod Domest Anim. 2017 Oct;52(5):819-824. doi: 10.1111/rda.12984. Epub 2017 Apr 29.
The objective of this study was to detect changes in intracellular reactive oxygen species (superoxide anion and hydrogen peroxide) production and lipid peroxidation during cryopreservation of alpaca spermatozoa. Twelve alpaca semen samples were conventionally cryopreserved. Intracellular superoxide anion and hydrogen peroxide were evaluated by fluorescence microscopy using dihydroethidium (DHE)/YO-PRO-1 and dichlorofluorescein diacetate (H2DCFDA)/propidium iodide (PI), respectively. Evaluations were performed during cooling curve at (1) 25°C, (2) 15°C, (3) 5°C/0 min, (4) 5°C/15 min, (5) 5°C/30 min and (6) after freezing/thawing. Evaluation of lipid peroxidation by measuring malondialdehyde (MDA) was performed at 25°C, 5°C/30 min and after thawing. Maximum percentages of total spermatozoa producing superoxide anion and hydrogen peroxide were found at 5°C/30 min (62.8 ± 6.3% and 30.5 ± 5.6%, respectively), and these results were higher (p < .05) than initial (25°C: 10.8 ± 3.8% and 6.8 ± 0.7%, respectively) and after thawing (29.8 ± 9.5% and 7.5 ± 1.8%, respectively) values. However, considering only viable spermatozoa, production of superoxide anion and hydrogen peroxide during overall stabilization at 5°C (>76% and >91%, respectively) and after thawing (74.9 ± 5.0% and 78.9 ± 2.2%, respectively) was higher (p < .05) than initial values at 25°C (38.7 ± 3.1% and 53.6 ± 2.0%, respectively). Lipid peroxidation at 25°C, 5°C/30 min, and post-thawing were 346.5 ± 99.8, 401.1 ± 64.8 and 527.7 ± 142.8 ng/ml MDA, respectively. These results showed that high percentage of viable alpaca spermatozoa produces intracellular reactive species oxygen (ROS) during the cryopreservation process of alpaca semen.
本研究的目的是检测羊驼精子冷冻保存过程中细胞内活性氧(超氧阴离子和过氧化氢)生成及脂质过氧化的变化。12份羊驼精液样本按常规方法进行冷冻保存。分别使用二氢乙锭(DHE)/YO-PRO-1和二氯荧光素二乙酸酯(H2DCFDA)/碘化丙啶(PI)通过荧光显微镜评估细胞内超氧阴离子和过氧化氢。在冷却曲线的不同阶段进行评估,包括(1)25°C、(2)15°C、(3)5°C/0分钟、(4)5°C/15分钟、(5)5°C/30分钟以及(6)冻融后。通过测量丙二醛(MDA)评估脂质过氧化,分别在25°C、5°C/30分钟和冻融后进行。产生超氧阴离子和过氧化氢的总精子最大百分比在5°C/30分钟时出现(分别为62.8±6.3%和30.5±5.6%),这些结果高于初始值(25°C时分别为10.8±3.8%和6.8±0.7%)以及冻融后的值(分别为29.8±9.5%和7.5±1.8%)(p<0.05)。然而,仅考虑活精子,在5°C整体稳定期(分别>76%和>91%)以及冻融后(分别为74.9±5.0%和78.9±2.2%)超氧阴离子和过氧化氢的生成高于25°C时的初始值(分别为38.7±3.1%和53.6±2.0%)(p<0.05)。25°C、5°C/30分钟和冻融后的脂质过氧化水平分别为346.5±99.8、401.1±64.8和527.7±142.8 ng/ml MDA。这些结果表明,在羊驼精液冷冻保存过程中,高比例的活羊驼精子会产生细胞内活性氧(ROS)。
