Mitochondrial dynamics controlled by mitofusins define organelle positioning and movement during mouse oocyte maturation

Wakai, Toshifumi; Harada, Yuichirou; Miyado, Kenji; Kono, Toru

doi:10.1093/molehr/gau064

Cited by 79 publications

(64 citation statements)

References 50 publications

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“…Mitochondrial dysfunctions that do not affect early oogenesis can indeed impair oocyte maturation, leading to infertility (Thouas et al, 2004;Zhang et al, 2006;Ben-Meir et al, 2015;Boucret et al, 2015;MayPanloup et al, 2016). During oocyte maturation, mitochondria are highly mobile, clustering at specific sites (i.e., around GV and spindles) to assure the energy requirement to be met (Kruip et al, 1983;Yu et al, 2010;Udagawa et al, 2014;Wakai et al, 2014). Thus, the large number of mitochondria possibly counterbalance their decreased activity, assuring energy demand to be supplied locally, without excessive ROS generation (Fig.…”

Section: Oocyte Mitochondriamentioning

confidence: 99%

“…This assumption is supported by the finding that ablation of fission leads to mitochondrial elongation in mouse oocytes (Udagawa et al, 2014). Yet, overexpression of MFN1 or MFN2 does not cause mitochondrial elongation in oocytes (Wakai et al, 2014), suggesting that keeping mitochondria fragmented is critical for the gamete. In fact, mice with oocytes deficient for mitochondrial fission are infertile (Udagawa et al, 2014), whereas overexpression of fusion genes impairs oocyte viability (Wakai et al, 2014).…”

Section: Mitochondrial Dynamicsmentioning

confidence: 99%

“…Yet, overexpression of MFN1 or MFN2 does not cause mitochondrial elongation in oocytes (Wakai et al, 2014), suggesting that keeping mitochondria fragmented is critical for the gamete. In fact, mice with oocytes deficient for mitochondrial fission are infertile (Udagawa et al, 2014), whereas overexpression of fusion genes impairs oocyte viability (Wakai et al, 2014). This effect was explained by accentuated interaction between organelles (i.e., mitochondrion-mitochondrion and mitochondrionendoplasmic reticulum), possibly mediated by the increased levels of either MFN1 or MFN2.…”

Section: Mitochondrial Dynamicsmentioning

confidence: 99%

“…Moreover, overexpression of MFN2 markedly disintegrated the endoplasmic reticulum network as this organelle was heavily tethered to mitochondria, thus preventing their proper migration through the cytoplasm. As a result, Ca 2+ stores in the endoplasmic reticulum were severely depleted (Wakai et al, 2014).…”

Section: Mitochondrial Dynamicsmentioning

confidence: 99%

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Oocyte mitochondria: role on fertility and disease transmission

et al. 2018

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Oocyte mitochondria are increased in number, smaller, and rounder in appearance than mitochondria in somatic cells. Moreover, mitochondrial numbers and activity are narrowly tied with oocyte quality because of the key role of mitochondria to oocyte maturation. During oocyte maturation, mitochondria display great mobility and cluster at specific sites to meet the high energy demand. Conversely, oocyte mitochondria are not required during early oogenesis as coupling with granulosa cells is sufficient to support gamete's needs. In part, this might be explained by the importance of protecting mitochondria from oxidative damage that result in mutations in mitochondrial DNA (mtDNA). Considering mitochondria are transmitted exclusively by the mother, oocytes with mtDNA mutations may lead to diseases in offspring. Thus, to counterbalance mutation expansion, the oocyte has developed specific mechanisms to filter out deleterious mtDNA molecules. Herein, we discuss the role of mitochondria on oocyte developmental potential and recent evidence supporting a purifying filter against deleterious mtDNA mutations in oocytes.

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Section: Oocyte Mitochondriamentioning

confidence: 99%

Section: Mitochondrial Dynamicsmentioning

confidence: 99%

Section: Mitochondrial Dynamicsmentioning

confidence: 99%

Section: Mitochondrial Dynamicsmentioning

confidence: 99%

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Oocyte mitochondria: role on fertility and disease transmission

et al. 2018

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“…The regulation of mitochondrial dynamics is important for oocyte maturation. Overexpression of mitochondrial fusion proteins leads to the formation of mitochondrial aggregates in oocyte cytoplasm and interferes with spindle organization and spatiotemporal endoplasmic reticulum (ER) distribution [24]. Moreover, oocyte-specific knockout of mitochondrial fission factor Drp1 impairs calcium signalling and intercellular communication, and leads to abnormalities in follicle development and ovulation [25].…”

Section: The Role Of Mitochondria In Oocyte Biologymentioning

confidence: 99%

Oocyte mitochondrial function and reproduction

Babayev

Seli²

2015

Current Opinion in Obstetrics &Amp; Gynecology

243

179

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Purpose of review Mitochondria are cellular organelles that are required for energy production. Emerging evidence demonstrates their role in oocyte development and reproduction. In this review, we examine recent animal and clinical studies on the role of mitochondria in fertility. We also analyse the impact of assisted reproductive techniques (ARTs) on mitochondrial function and discuss the future clinical implications of mitochondrial nutrients and mitochondrial replacement. Recent findings Mitochondria affect all aspects of mammalian reproduction. They are essential for optimal oocyte maturation, fertilization and embryonic development. Mitochondrial dysfunction causes a decrease in oocyte quality and interferes with embryonic development. ART procedures affect mitochondrial function, while mitochondrial nutrients may increase mitochondrial performance in oocytes. New mitochondrial replacement procedures using mitochondria obtained from polar bodies or from the patient’s own oogonial stem cells are promising and may address concerns related to the induction of high-levels of heteroplasmy, which could potentially result in negative long-term health effects. Summary Optimal energy production is required for oocyte and embryo development, and mitochondrial abnormalities have devastating reproductive consequences. Improvement of oocyte mitochondrial function via intake of compounds that boost mitochondrial activity may have clinical benefits, and mitochondrial replacement could potentially be used for the prevention of mitochondrial diseases.

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Guardians of Oocyte Quality

Ruebel

Latham

2018

Encyclopedia of Life Sciences

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Oocyte quality is fundamental to assisted reproduction, agricultural livestock productivity and species preservation. Mammalian oocytes develop in close coordination with somatic follicle cells of the ovary, and manifest remarkable molecular mechanisms that serve as guardians of oocyte quality and integrity. Genome and mitochondrial integrity are major aspects of oocyte quality determination. Ongoing research is revealing the details of these mechanisms, and how they help protect oocytes from detrimental effects of exogenous factors. Key Concepts Oocyte quality is essential for assisted reproduction success. Development of the oocyte involves an intricate set of bidirectional signals between the oocyte, cumulus cells and follicular fluid components, which can impact the quality of the oocyte. Chromosome segregation and adaptability to DNA damage are critical for the integrity of oocyte's genome. Energy production, proper distribution of mitochondria and regulation of fusion/fission are essential for maintaining the integrity of the mitochondria and oocyte developmental competence. Overall, oocyte maturation and development is a highly regulated process, and disruption in this process could comprise the mitochondrial and genomic integrity, further impacting the health of the oocytes. There are a variety of extrinsic factors, such as maternal health, maternal diet and environmental exposures, that can further impact oocyte quality. Therapies such as antioxidant, melatonin, CoQ10 and resveratrol treatments have been suggested to improve oocyte quality, but more studies are needed to determine efficacy. Novel biomarkers of oocyte quality need to be discovered.

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Mitochondrial dynamics controlled by mitofusins define organelle positioning and movement during mouse oocyte maturation

Cited by 79 publications

References 50 publications

Oocyte mitochondria: role on fertility and disease transmission

Oocyte mitochondria: role on fertility and disease transmission

Oocyte mitochondrial function and reproduction

Guardians of Oocyte Quality

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