Donà G, Fiore C, Tibaldi E, Frezzato F, Andrisani A, Ambrosini G, Fiorentin D, Armanini D, Bordin L, Clari G
Department of Biological Chemistry Endocrinology Unit, University of Padova, Padova, Italy.
Int J Androl. 2011 Oct;34(5 Pt 1):411-9. doi: 10.1111/j.1365-2605.2010.01097.x. Epub 2010 Aug 2.
Generation of controlled amounts of reactive oxygen species (ROS) and phosphorylation of protein tyrosine (Tyr) residues are two main cellular changes involved in sperm capacitation. This study examined the relationship between tyrosine-phosphorylation (Tyr-P) and endogenous ROS production during sperm capacitation, and correlated them with both sperm motility and functionality expressed as acrosome-reacted cells. Immediate ROS generation was observed to peak after a 45-min incubation, followed by a rapid decrease in ROS content and successive regeneration of the ROS peak in 3 h and later. These two peaks were directly correlated with both the Tyr-P process involving sperm heads and tails, and the acrosome reaction (69 ± 8% and 65 ± 4%, respectively). The period of low-ROS content resulted in low Tyr-P patterns, located exclusively in the cell midpiece, and drastic reduction in acrosome-reacted cells. Ascorbic acid addition inhibited both Tyr-P patterns and acrosome reactions, whereas NADPH induced high ROS generation, with Tyr-P patterns located only on sperm tails, and prevented the acrosome reaction. Sperm hyperactivation was insensitive to ROS content. This is an important parameter for evaluation of sperm capacitation, which is achieved only when both ROS generation reaches a peak and Tyr-P involves the sperm head.
产生可控量的活性氧(ROS)以及蛋白质酪氨酸(Tyr)残基的磷酸化是精子获能过程中涉及的两个主要细胞变化。本研究检测了精子获能过程中酪氨酸磷酸化(Tyr-P)与内源性ROS产生之间的关系,并将它们与以顶体反应细胞表示的精子活力和功能相关联。观察到即刻ROS产生在孵育45分钟后达到峰值,随后ROS含量迅速下降,并在3小时及之后ROS峰值相继再生。这两个峰值与涉及精子头部和尾部的Tyr-P过程以及顶体反应直接相关(分别为69±8%和65±4%)。低ROS含量时期导致低Tyr-P模式,仅位于细胞中段,并使顶体反应细胞急剧减少。添加抗坏血酸抑制抑制了Tyr-P模式和顶体反应,而NADPH诱导高ROS产生,Tyr-P模式仅位于精子尾部,并阻止顶体反应。精子超活化对ROS含量不敏感。这是评估精子获能的一个重要参数,只有当ROS产生达到峰值且Tyr-P涉及精子头部时才能实现精子获能。
