The Stimulated Glycolytic Pathway Is Able to Maintain ATP Levels and Kinetic Patterns of Bovine Epididymal Sperm Subjected to Mitochondrial Uncoupling

Losano, João Diego de Agostini; Padín, Juan Fernando; Méndez-López, Iago; Angrimani, Daniel de Souza Ramos; Garcı́a, Antonio G.; Barnabé, Valquíria Hyppólito; Nichi, Marcílio

doi:10.1155/2017/1682393

Cited by 38 publications

(39 citation statements)

References 29 publications

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“…This finding suggested that glycolysis is more relevant than oxidative phosphorylation in the energetic metabolism of murine sperm. In a recent study conducted by our group, we observed similar results in bovine epididymal spermatozoa subjected to mitochondrial uncoupling and glycolysis stimulation (Losano et al, 2017a; Fig. 1).…”

Section: Role Of Mitochondria In Atp Production and Sperm Physiologysupporting

confidence: 83%

Spermatic mitochondria: role in oxidative homeostasis, sperm function and possible tools for their assessment

Losano

Angrimani

Leite

et al. 2018

Zygote

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SummaryDespite sperm mitochondrial relevance to the fertilization capacity, the processes involved in the production of ATP and functional dynamics of sperm mitochondria are not fully understood. One of these processes is the paradox involved between function and formation of reactive oxygen species performed by the organelle. Therefore, this review aimed to provide data on the role of sperm mitochondria in oxidative homeostasis and functionality as well the tools to assess sperm mitochondrial function.

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Section: Role Of Mitochondria In Atp Production and Sperm Physiologysupporting

confidence: 83%

Spermatic mitochondria: role in oxidative homeostasis, sperm function and possible tools for their assessment

Losano

Angrimani

Leite

et al. 2018

Zygote

Self Cite

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“…The sperm flagellum is powered by ATP produced by a complex of mitochondrial enzyme systems including the electron transport chain (ETC). As such, the powerhouse of the cell, the mitochondrion, is likely the foundation of sperm pathophysiology and structure (Darr, Cortopassi, Datta, Varner, & Meyers, ; Hu et al., ; Losano et al., ). Species differences in energy requirements for mitochondria for optimal sperm function are becoming evident, and individually tailored sperm handling and storage techniques (Darr, Varner et al., ; Davila et al., ; Gibb, Lambourne, Quadrelli, Smith, & Aitken, ) are likely to become clinical reality as the biochemistry and cellular physiology of sperm are uncovered.…”

Section: Introductionmentioning

confidence: 99%

Sperm mitochondrial regulation in motility and fertility in horses

Meyers

Bulkeley

Foutouhi

2019

Reprod Domestic Animals

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The biological nature of age‐related declines in fertility in males of any species, including stallions, has been elusive. In horses, the economic costs to the breeding industry are frequently extensive. Mitochondrial function in ejaculated sperm, which is essential for sperm motility, is reflected by adenosine triphosphate production, mitochondrial oxidative efficiency and production of reactive oxygen species, and that this balance may become compromised in ageing stallions and during the process of cryopreservation. This presentation will focus on mitochondrial integrity and function as an avenue for understanding the pathophysiology of sperm when undergoing cryopreservation and male ageing. We discuss the importance of understanding the differences and similarities of sperm mitochondria to that of somatic cells regarding structure and mitochondrial biochemistry relating to sperm function. The roles of oxidative phosphorylation and glycolysis in sperm mitochondria are outlined as is the method of determining oxygen consumption and calcium homoeostasis in sperm mitochondria. Further, we outline the role of oxidative stress and reactive oxygen species.

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“…Whilst the low glycolytic activity argues for a substantial utilisation of oxphos, glycolysis is also discussed as being essential to supply energy to sperm regions far from mitochondria to support motility 7 . For example, inhibiting oxphos while stimulating glycolysis maintained full sperm motility 36 . Other studies suggest that diffusion of ATP in sperm flagella is enough, if there is enough ATP stored in the tail, as it is the case in bull sperm 37 .…”

Section: Discussionmentioning

confidence: 99%

The swim-up technique separates bovine sperm by metabolic rates, motility and tail length

Magdanz¹,

Boryshpolets

Ridzewski³

et al. 2019

Preprint

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18Swim-up is a sperm purification method that is being used daily in andrology labs around the 19 world as a simple step for in vitro sperm selection. This method accumulates the most motile 20 sperm in the upper fraction and leaves sperm with low or no motility in the lower fraction but 21 the underlying reasons are not fully understood. In this article, we compare metabolic rate, 22 motility and sperm tail length of bovine sperm cells of the upper and lower fraction. The 23 metabolic assay platform reveals oxygen consumption rates and extracellular acidification rates 24 simultaneously and thereby delivers the metabolic rates in real time. Our study confirms the 25 upper fraction of bull sperm has improved motility compared to the cells in the lower fraction 26 and shows higher metabolic rates. This pattern was consistent across media of two different 27 levels of viscosity. Sperm with longer flagella are selected in the upper fraction. We conclude 28 that the motility-based separation of the swim-up technique is based on metabolic differences. 29Metabolic assays could serve as additional or alternative, label-free method to evaluate sperm 30 quality, which is likely particularly useful in cases of asthenozoospermia and teratospermia. 31Furthermore, metabolic measurements of sperm cells can reveal differences in metabolic 32 pathways in different environments. 33 2 1 Keywords 2 swim-up, bovine sperm, metabolism, sperm selection, sperm quality 3

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The Stimulated Glycolytic Pathway Is Able to Maintain ATP Levels and Kinetic Patterns of Bovine Epididymal Sperm Subjected to Mitochondrial Uncoupling

Cited by 38 publications

References 29 publications

Spermatic mitochondria: role in oxidative homeostasis, sperm function and possible tools for their assessment

Spermatic mitochondria: role in oxidative homeostasis, sperm function and possible tools for their assessment

Sperm mitochondrial regulation in motility and fertility in horses

The swim-up technique separates bovine sperm by metabolic rates, motility and tail length

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