Sirt2‐BubR1 acetylation pathway mediates the effects of advanced maternal age on oocyte quality

Qiu, Danhong; Hou, Xiaohong; Han, Longsen; Li, Xiaoyan; Ge, Juan; Wang, Qiang

doi:10.1111/acel.12698

Cited by 43 publications

(54 citation statements)

References 45 publications

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“…Consequently, in oocytes from Sirt2 Tg/+ overexpressing animals, increases in kinetochore – microtubule stability likely contributed to augmented chromosome alignment and improved fertility. These observations are corroborated by separate in vitro studies where morpholino-mediated Sirt2 knockdown or chemical inhibition of SIRT2 in oocytes resulted in severe spindle defects and chromosome disorganization (29, 38). These results are supported by the apparent lower rates of aneuploidy in oocytes from aged Sirt2 Tg/+ animals in the present study.…”

Section: Discussionsupporting

confidence: 52%

“…4i), indicating that at a younger age where NAD is replete, SIRT2 is not essential for accurate spindle assembly, or that there is redundancy in the role of SIRT2 with other yet to be identified factors. These in vivo results from Sirt2 knockout animals are in contrast to studies of in vitro morpholino knockdown of Sirt2 (28) or chemical inhibition of SIRT2 in oocytes (38), where depletion or inhibition results in spindle assembly defects and aneuploidy (28, 29). The discrepancy between these results may be due to the compensatory, upregulation of other factors in constitutive knockout animals, versus the acute depletion of SIRT2 in oocytes during in vitro maturation.…”

Section: Resultsmentioning

confidence: 86%

“…The benefits of in vivo NMN treatment could largely be recapitulated by transgenic overexpression of Sirt2 in aged animals, although its constitutive deletion had no adverse impact on oocyte integrity, at least in the younger animals studied here. SIRT2 plays a role in the maintenance of microtubule-kinetochore attachments through its deacylation and stabilisation of BubR1 (26, 29), a process that ensures fidelity in chromosome separation through ensuring the bipolar orientation of chromosomes to the spindle. Consequently, in oocytes from Sirt2 Tg/+ overexpressing animals, increases in kinetochore – microtubule stability likely contributed to augmented chromosome alignment and improved fertility.…”

Section: Discussionmentioning

confidence: 99%

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NAD⁺repletion rescues female fertility during reproductive ageing

Bertoldo

Listijono

et al. 2019

Preprint

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2Female infertility is a common and devastating condition with life-long health, emotional and 3 social consequences. There is currently no pharmacological therapy for preserving oocyte 4 quality during aging, which is the strongest risk factor for infertility. This leads to an age 5 dependent decline in natural conception and IVF success rates (1). Here, we show that this is 6 due in part to declining levels of the metabolic cofactor nicotinamide adenine dinucleotide 7 (NAD + ), and that restoring NAD + levels with its metabolic precursor nicotinamide 8 mononucleotide (NMN) rejuvenates oocyte quality and quantity in aged animals, leading to 9 improved fertility. These benefits extend to the developing embryo, where NMN 10 supplementation in embryo culture media following IVF enhances blastocyst formation in 11 older mice. The NAD + dependent deacylase SIRT2 is sufficient, but not essential, to 12 recapitulate the benefits of in vivo NMN treatment, and transgenic overexpression of SIRT2 13 maintains oocyte spindle assembly, accurate chromosome segregation, decreased oxidative 14 stress and overall fertility with ageing. Pharmacological elevation of NAD + may be an 15 effective, non-invasive strategy for restoring and maintaining female fertility during ageing, 16 and for improving the success of IVF.17 18 19 risks (4), is expensive and has a limited success rate. Repeated IVF failures are a substantial 1 source of emotional distress, and failure to conceive offspring is a substantial source of 2 relationship breakdown (5). 4The rate-limiting factors for successful pregnancies in IVF are oocyte quantity and quality, 5 both of which start to decline from the middle of the third decade of life in humans (1, 3). 6 Despite the enormous need, there are no clinically viable strategies to either preserve or 7 rejuvenate oocyte quantity or quality during ageing. There is a major need in reproductive 8 medicine for a non-invasive, pharmacological treatment to maintain or restore oocyte quantity 9 and/or quality during ageing. The effect of such a therapy would be to alleviate a rate-limiting 10 barrier to IVF success, or increase the chances of unaided conception, without having to resort 11 to IVF. 12 13The molecular basis for the decline in oocyte quality with advancing age is not clear but is 14 certainly multifactorial. The key factors thought to be involved include genome instability, 15 reduced mitochondrial bioenergetics, increased reactive oxygen species (ROS), and impaired 16 fidelity during meiotic chromosome segregation due to disrupted spindle assembly and 17 compromised function of the spindle assembly checkpoint (SAC) surveillance system (6). This 18 latter hypothesis is evidenced by an increased rate of aneuploidy in embryos with increased 19

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Section: Discussionsupporting

confidence: 52%

Section: Resultsmentioning

confidence: 86%

Section: Discussionmentioning

confidence: 99%

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NAD⁺repletion rescues female fertility during reproductive ageing

Bertoldo

Listijono

et al. 2019

Preprint

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“…Oocytes from whole-body Sirt2 À/À knockout mice at the age of 5-6 months displayed normal spindle assembly and maturation ( Figure 3I), indicating that at a younger age at which NAD + is replete, SIRT2 is not essential for accurate spindle assembly or that redundancy exists in the role of SIRT2 with other yet-to-be-identified factors. These in vivo results from Sirt2 knockout animals are in contrast to in vitro studies (Qiu et al, 2018;Riepsamen et al, 2015;Zhang et al, 2014). Altogether, (D and E) Aged (12-to 14-month-old) transgenic mice overexpressing NMNAT1 have increased oocyte yield (*p = 0.0416, two-tailed t-test, n = 8-10 per group) (D) in comparison to transgenics overexpressing NMNAT3 (n = 7-11) (E).…”

Section: Controlmentioning

confidence: 92%

“…One candidate that we hypothesized for this role is the NAD + -dependent deacylase SIRT2. We previously showed that SIRT2 stabilizes the SAC protein BubR1 (North et al, 2014), which is critical for meiotic progression (Homer et al, 2009), kinetochore attachment, and chromosome segregation in oocytes (Qiu et al, 2018;Touati et al, 2015;Zhang et al, 2014). Levels of BubR1 decline in mouse reproductive tissue (North et al, 2014) and human oocytes with advancing age (Riris et al, 2014).…”

Section: Controlmentioning

confidence: 99%

NAD+ Repletion Rescues Female Fertility during Reproductive Aging

et al. 2020

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Graphical Abstract Highlights d Declining NAD(P)H is associated with oocyte dysfunction during reproductive aging d Oocyte quality and fertility can be restored by NMN treatment in aged mice d Supplementation of embryo media with NMN improves developmental milestones d SIRT2 overexpression mimics benefits of NMN but is unlikely to mediate its effects SUMMARYReproductive aging in female mammals is an irreversible process associated with declining oocyte quality, which is the rate-limiting factor to fertility.Here, we show that this loss of oocyte quality with age accompanies declining levels of the prominent metabolic cofactor nicotinamide adenine dinucleotide (NAD + ). Treatment with the NAD + metabolic precursor nicotinamide mononucleotide (NMN) rejuvenates oocyte quality in aged animals, leading to restoration in fertility, and this can be recapitulated by transgenic overexpression of the NAD + -dependent deacylase SIRT2, though deletion of this enzyme does not impair oocyte quality. These benefits of NMN extend to the developing embryo, where supplementation reverses the adverse effect of maternal age on developmental milestones. These findings suggest that late-life restoration of NAD + levels represents an opportunity to rescue female reproductive function in mammals.

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Histone acetyltransferases and histone deacetyl transferases play crucial role during oogenesis and early embryo development

Bozdemir,

Uysal

2023

Genesis

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SummaryDynamic epigenetic regulation is critical for proper oogenesis and early embryo development. During oogenesis, fully grown germinal vesicle oocytes develop to mature Metaphase II oocytes which are ready for fertilization. Fertilized oocyte proliferates mitotically until blastocyst formation and the process is called early embryo development. Throughout oogenesis and early embryo development, spatio‐temporal gene expression takes place, and this dynamic gene expression is controlled with the aid of epigenetics. Epigenetic means that gene expression can be altered without changing DNA itself. Epigenome is regulated through DNA methylation and histone modifications. While DNA methylation generally ends up with repression of gene expression, histone modifications can result in expression or repression depending on type of modification, type of histone protein and its specific residue. One of the modifications is histone acetylation which generally ends up with gene expression. Histone acetylation occurs through the addition of acetyl group onto amino terminal of the core histone proteins by histone acetyltransferases (HATs). Contrarily, histone deacetylation is associated with repression of gene expression, and it is catalyzed by histone deacetylases (HDACs). This review article focuses on what is known about alterations in the expression of HATs and HDACs and emphasizes importance of HATs and HDACs during oogenesis and early embryo development.

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Sirt2‐BubR1 acetylation pathway mediates the effects of advanced maternal age on oocyte quality

Cited by 43 publications

References 45 publications

NAD⁺repletion rescues female fertility during reproductive ageing

NAD⁺repletion rescues female fertility during reproductive ageing

NAD+ Repletion Rescues Female Fertility during Reproductive Aging

Histone acetyltransferases and histone deacetyl transferases play crucial role during oogenesis and early embryo development

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Sirt2‐BubR1 acetylation pathway mediates the effects of advanced maternal age on oocyte quality

Cited by 43 publications

References 45 publications

NAD+repletion rescues female fertility during reproductive ageing

NAD+repletion rescues female fertility during reproductive ageing

NAD+ Repletion Rescues Female Fertility during Reproductive Aging

Histone acetyltransferases and histone deacetyl transferases play crucial role during oogenesis and early embryo development

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NAD⁺repletion rescues female fertility during reproductive ageing

NAD⁺repletion rescues female fertility during reproductive ageing