Differences in ATP Generation Via Glycolysis and Oxidative Phosphorylation and Relationships with Sperm Motility in Mouse Species

Mouse sperm produce enough ATP to sustain motility by anaerobic glycolysis and respiration. However, previous studies indicated that an active glycolytic pathway is required to achieve normal sperm function and identified glycolysis as the main source of ATP to fuel the motility of mouse sperm. All...

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Published inThe Journal of biological chemistry Vol. 290; no. 33; pp. 20613 - 20626
Main Authors Tourmente, Maximiliano, Villar-Moya, Pilar, Rial, Eduardo, Roldan, Eduardo R.S.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 14.08.2015
American Society for Biochemistry and Molecular Biology
Subjects
Adenosine Triphosphate - biosynthesis
Animals
ATP
Bioenergetics
cell metabolism
Glycolysis
Male
Mice
mouse
Oxidative Phosphorylation
Oxygen Consumption
respiration
Species Specificity
sperm
Sperm Motility
mouse
bioenergetics
glycolysis
cell metabolism
respiration
sperm
ATP
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Abstract Mouse sperm produce enough ATP to sustain motility by anaerobic glycolysis and respiration. However, previous studies indicated that an active glycolytic pathway is required to achieve normal sperm function and identified glycolysis as the main source of ATP to fuel the motility of mouse sperm. All the available evidence has been gathered from the studies performed using the laboratory mouse. However, comparative studies of closely related mouse species have revealed a wide range of variation in sperm motility and ATP production and that the laboratory mouse has comparatively low values in these traits. In this study, we compared the relative reliance on the usage of glycolysis or oxidative phosphorylation as ATP sources for sperm motility between mouse species that exhibit significantly different sperm performance parameters. We found that the sperm of species with higher oxygen consumption/lactate excretion rate ratios were able to produce higher amounts of ATP, achieving higher swimming velocities. Additionally, we show that the species with higher respiration/glycolysis ratios have a higher degree of dependence upon active oxidative phosphorylation. Moreover, we characterize for the first time two mouse species in which sperm depend on functional oxidative phosphorylation to achieve normal performance. Finally, we discuss that sexual selection could promote adaptations in sperm energetic metabolism tending to increase the usage of a more efficient pathway for the generation of ATP (and faster sperm). Background: Sperm from mouse species may produce ATP through glycolysis or respiration. Results: Sperm with high respiration/glycolysis ratio and high reliance on respiration produce more ATP and swim faster. Conclusion: The usage ratio of ATP production pathways defines sperm motility in mouse species. Significance: Sperm metabolism in mice has evolved ways to produce faster sperm.
AbstractList Mouse sperm produce enough ATP to sustain motility by anaerobic glycolysis and respiration. However, previous studies indicated that an active glycolytic pathway is required to achieve normal sperm function and identified glycolysis as the main source of ATP to fuel the motility of mouse sperm. All the available evidence has been gathered from the studies performed using the laboratory mouse. However, comparative studies of closely related mouse species have revealed a wide range of variation in sperm motility and ATP production and that the laboratory mouse has comparatively low values in these traits. In this study, we compared the relative reliance on the usage of glycolysis or oxidative phosphorylation as ATP sources for sperm motility between mouse species that exhibit significantly different sperm performance parameters. We found that the sperm of species with higher oxygen consumption/lactate excretion rate ratios were able to produce higher amounts of ATP, achieving higher swimming velocities. Additionally, we show that the species with higher respiration/glycolysis ratios have a higher degree of dependence upon active oxidative phosphorylation. Moreover, we characterize for the first time two mouse species in which sperm depend on functional oxidative phosphorylation to achieve normal performance. Finally, we discuss that sexual selection could promote adaptations in sperm energetic metabolism tending to increase the usage of a more efficient pathway for the generation of ATP (and faster sperm). Background: Sperm from mouse species may produce ATP through glycolysis or respiration. Results: Sperm with high respiration/glycolysis ratio and high reliance on respiration produce more ATP and swim faster. Conclusion: The usage ratio of ATP production pathways defines sperm motility in mouse species. Significance: Sperm metabolism in mice has evolved ways to produce faster sperm.
Background: Sperm from mouse species may produce ATP through glycolysis or respiration. Results: Sperm with high respiration/glycolysis ratio and high reliance on respiration produce more ATP and swim faster. Conclusion: The usage ratio of ATP production pathways defines sperm motility in mouse species. Significance: Sperm metabolism in mice has evolved ways to produce faster sperm. Mouse sperm produce enough ATP to sustain motility by anaerobic glycolysis and respiration. However, previous studies indicated that an active glycolytic pathway is required to achieve normal sperm function and identified glycolysis as the main source of ATP to fuel the motility of mouse sperm. All the available evidence has been gathered from the studies performed using the laboratory mouse. However, comparative studies of closely related mouse species have revealed a wide range of variation in sperm motility and ATP production and that the laboratory mouse has comparatively low values in these traits. In this study, we compared the relative reliance on the usage of glycolysis or oxidative phosphorylation as ATP sources for sperm motility between mouse species that exhibit significantly different sperm performance parameters. We found that the sperm of species with higher oxygen consumption/lactate excretion rate ratios were able to produce higher amounts of ATP, achieving higher swimming velocities. Additionally, we show that the species with higher respiration/glycolysis ratios have a higher degree of dependence upon active oxidative phosphorylation. Moreover, we characterize for the first time two mouse species in which sperm depend on functional oxidative phosphorylation to achieve normal performance. Finally, we discuss that sexual selection could promote adaptations in sperm energetic metabolism tending to increase the usage of a more efficient pathway for the generation of ATP (and faster sperm).
Mouse sperm produce enough ATP to sustain motility by anaerobic glycolysis and respiration. However, previous studies indicated that an active glycolytic pathway is required to achieve normal sperm function and identified glycolysis as the main source of ATP to fuel the motility of mouse sperm. All the available evidence has been gathered from the studies performed using the laboratory mouse. However, comparative studies of closely related mouse species have revealed a wide range of variation in sperm motility and ATP production and that the laboratory mouse has comparatively low values in these traits. In this study, we compared the relative reliance on the usage of glycolysis or oxidative phosphorylation as ATP sources for sperm motility between mouse species that exhibit significantly different sperm performance parameters. We found that the sperm of species with higher oxygen consumption/lactate excretion rate ratios were able to produce higher amounts of ATP, achieving higher swimming velocities. Additionally, we show that the species with higher respiration/glycolysis ratios have a higher degree of dependence upon active oxidative phosphorylation. Moreover, we characterize for the first time two mouse species in which sperm depend on functional oxidative phosphorylation to achieve normal performance. Finally, we discuss that sexual selection could promote adaptations in sperm energetic metabolism tending to increase the usage of a more efficient pathway for the generation of ATP (and faster sperm).
Author Villar-Moya, Pilar
Roldan, Eduardo R.S.
Tourmente, Maximiliano
Rial, Eduardo
Author_xml – sequence: 1
  givenname: Maximiliano
  surname: Tourmente
  fullname: Tourmente, Maximiliano
  organization: Reproductive Ecology and Biology Group, Museo Nacional de Ciencias Naturales (Consejo Superior de Investigaciones Científicas), 28006 Madrid, Spain
– sequence: 2
  givenname: Pilar
  surname: Villar-Moya
  fullname: Villar-Moya, Pilar
  organization: Reproductive Ecology and Biology Group, Museo Nacional de Ciencias Naturales (Consejo Superior de Investigaciones Científicas), 28006 Madrid, Spain
– sequence: 3
  givenname: Eduardo
  surname: Rial
  fullname: Rial, Eduardo
  organization: Mitochondrial Bioenergetics Research Group, Centro de Investigaciones Biológicas (Consejo Superior de Investigaciones Científicas), 28040 Madrid, Spain
– sequence: 4
  givenname: Eduardo R.S.
  surname: Roldan
  fullname: Roldan, Eduardo R.S.
  email: roldane@mncn.csic.es
  organization: Reproductive Ecology and Biology Group, Museo Nacional de Ciencias Naturales (Consejo Superior de Investigaciones Científicas), 28006 Madrid, Spain
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Keywords mouse
bioenergetics
glycolysis
cell metabolism
respiration
sperm
ATP
Language English
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2015 by The American Society for Biochemistry and Molecular Biology, Inc.
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Recipient of a Junta para la Ampliación de Estudios-Technicians Program (JAE-Tec) training scholarship.
Recipient of a “Juan de la Cierva” postdoctoral fellowship from the Ministry of Economy and Competitiveness.
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Snippet Mouse sperm produce enough ATP to sustain motility by anaerobic glycolysis and respiration. However, previous studies indicated that an active glycolytic...
Background: Sperm from mouse species may produce ATP through glycolysis or respiration. Results: Sperm with high respiration/glycolysis ratio and high reliance...
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SubjectTerms Adenosine Triphosphate - biosynthesis
Animals
ATP
Bioenergetics
cell metabolism
Glycolysis
Male
Mice
mouse
Oxidative Phosphorylation
Oxygen Consumption
respiration
Species Specificity
sperm
Sperm Motility
Title Differences in ATP Generation Via Glycolysis and Oxidative Phosphorylation and Relationships with Sperm Motility in Mouse Species
URI https://dx.doi.org/10.1074/jbc.M115.664813
https://www.ncbi.nlm.nih.gov/pubmed/26048989
https://search.proquest.com/docview/1704351859
https://pubmed.ncbi.nlm.nih.gov/PMC4536464
Volume 290
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