Effects of substrate availability and mitochondrial disruption on oxidative metabolism and sperm motility in fertile dogs.

IF 1.6 3区 农林科学 Q2 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Azarene Foutouhi, Evelyn Bulkely, Alejandro de la Fuente, Kris Gonzalez, Stuart Meyers
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Abstract

In several mammalian species, the measurement of mitochondrial oxygen consumption (MITOX) under different metabolic conditions has demonstrated a positive correlation with sperm motility and may be a sensitive indicator of mitochondrial health. In general, the maintenance of sperm motility and many key sperm functions and fertilizing events are heavily energy-dependent processes, and some species-specific substrate preferences exist. Although canine sperm have been known to undergo capacitation and maintain motility with supplementation of a wide range of energy substrates, the relationship between mitochondrial function, and the maintenance of oxidative metabolism and sperm motility remain unclear. The objective of this study was to explore the metabolic flexibility of canine sperm, and to investigate the relationship between mitochondrial function, and maintenance of motility under differing nutrient conditions. We explored substrate preferences and the bioenergetics underlying maintenance of canine sperm motility by monitoring mitochondrial oxidative function and sperm kinematics in the presence of mitochondrial effector drug treatments: FCCP, antimycin (ANTI), and oligomycin (OLIGO). We hypothesized that canine sperm possess the ability to use compensatory pathways and utilize diverse nutrient sources in the maintenance of motility. Oxygen consumption (change in pO2, oxygen partial pressure) and sperm kinematics (CASA) were measured concurrently (t0-t30) to assess the relationship between oxidative metabolism and maintenance of sperm motility in dogs. Four media were tested: containing glucose, lactate, and pyruvate (GLP), containing glucose (G), fructose (F), or lactate and pyruvate (LP). In the absence of pharmacological inhibition of the electron transport chain, energetic substrate had no effect on sperm kinematics in fertile dogs. Following mitochondrial disruption by ANTI and OLIGO, mitochondrial oxygen consumption was negatively correlated with several sperm motility parameters in GLP, G, F, and LP media. In every media, FCCP treatment quickly induced significantly higher oxygen consumption than in untreated sperm, and spare respiratory capacity, the maximal inducible oxidative metabolism, was high. With respiratory control ratios RCR >1 there was no indication of bioenergetic dysfunction in any media type, indicating that sperm mitochondria of fertile dogs have a high capacity for substrate oxidation and ATP turnover regardless of substrate. Our results suggest MITOX assessment is a valuable tool for assessing mitochondrial functionality, and that canine sperm employ flexible energy management systems which may be exploited to improve sperm handling and storage.

底物可用性和线粒体干扰对肥育犬氧化代谢和精子活力的影响
在多个哺乳动物物种中,不同代谢条件下线粒体耗氧量(MITOX)的测量结果表明与精子活力呈正相关,可能是线粒体健康的敏感指标。一般来说,精子活力的维持以及精子的许多关键功能和受精过程都严重依赖能量,而且存在一些物种特有的底物偏好。虽然已知犬精子在补充多种能量底物后可获得获能能力并保持运动能力,但线粒体功能、氧化代谢的维持和精子运动能力之间的关系仍不清楚。本研究旨在探索犬精子代谢的灵活性,并研究线粒体功能与在不同营养条件下维持精子活力之间的关系。我们通过监测线粒体氧化功能和精子运动学,探索了犬精子对底物的偏好以及维持精子活力的生物能:FCCP、抗霉素 (ANTI) 和低聚霉素 (OLIGO)。我们假设犬精子具有利用补偿途径和不同营养源维持运动的能力。我们同时测量了耗氧量(pO2,氧分压的变化)和精子运动学(CASA)(t0-t30),以评估氧化代谢与犬精子活力维持之间的关系。测试了四种培养基:含葡萄糖、乳酸和丙酮酸(GLP),含葡萄糖(G)、果糖(F)或乳酸和丙酮酸(LP)。在没有对电子传递链进行药物抑制的情况下,高能基质对可育犬的精子运动学没有影响。通过 ANTI 和 OLIGO 破坏线粒体后,线粒体耗氧量与 GLP、G、F 和 LP 培养基中的多个精子运动参数呈负相关。在每种培养基中,短链氯化石蜡处理都能迅速诱导出明显高于未处理精子的耗氧量,并且备用呼吸能力(最大诱导氧化代谢)很高。当呼吸控制比 RCR >1 时,在任何一种培养基类型中都没有生物能失调的迹象,这表明肥育犬的精子线粒体具有很高的底物氧化能力和 ATP 转换能力,与底物无关。我们的研究结果表明,MITOX 评估是评估线粒体功能的重要工具,犬精子具有灵活的能量管理系统,可用于改善精子的处理和储存。
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来源期刊
Reproduction in Domestic Animals
Reproduction in Domestic Animals 农林科学-奶制品与动物科学
CiteScore
3.00
自引率
5.90%
发文量
238
审稿时长
4-8 weeks
期刊介绍: The journal offers comprehensive information concerning physiology, pathology, and biotechnology of reproduction. Topical results are currently published in original papers, reviews, and short communications with particular attention to investigations on practicable techniques. Carefully selected reports, e. g. on embryo transfer and associated biotechnologies, gene transfer, and spermatology provide a link between basic research and clinical application. The journal applies to breeders, veterinarians, and biologists, and is also of interest in human medicine. Interdisciplinary cooperation is documented in the proceedings of the joint annual meetings. Fields of interest: Animal reproduction and biotechnology with special regard to investigations on applied and clinical research.
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