Moderate maternal folic acid supplementation ameliorates adverse embryonic and epigenetic outcomes associated with assisted reproduction in a mouse model

Rahimi, Sophia; Martel, Josée; Karahan, Gurbet; Angle, Camille; Behan, Nathalie A.; Chan, Donovan; MacFarlane, Amanda J.; Trasler, Jacquetta M.

doi:10.1093/humrep/dez036

Cited by 41 publications

(57 citation statements)

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“…In addition to placenta overgrowth, IVF placentas exhibit biallelic expression of imprinted genes, which are normally monoallelically expressed, concomitant with loss of allele-specific DNA methylation of their regulatory imprinting control regions (ICRs) (de Waal et al, 2014;de Waal et al, 2015;Rahimi et al, 2019;Whidden et al, 2016). To ascertain whether an association exists between these DNA methylation changes and the morphological phenotypes over the span of placenta development, we measured DNA methylation of the paternally methylated ICR H19/Igf2 and three maternally methylated ICRs -Kcnq1ot1, Peg3 and Snrpnby bisulfite pyrosequencing.…”

Section: Ivf Increases Sflt1 Levels a Protein Implicated In Causing mentioning

confidence: 99%

Assisted reproductive technologies induce temporally specific placental defects and the preeclampsia risk marker sFLT1 in mouse

et al. 2020

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Although widely used, assisted reproductive technologies (ARTs) are associated with adverse perinatal outcomes. To elucidate their underlying causes, we have conducted a longitudinal analysis of placental development and fetal growth using a mouse model to investigate the effects of individual ART procedures: hormone stimulation, in vitro fertilization (IVF), embryo culture and embryo transfer. We demonstrate that transfer of blastocysts naturally conceived without hormone stimulation and developed in vivo prior to transfer can impair early placentation and fetal growth, but this effect normalizes by term. In contrast, embryos cultured in vitro before transfer do not exhibit this compensation but rather display placental overgrowth, reduced fetal weight, reduced placental DNA methylation and increased levels of sFLT1, an anti-angiogenic protein implicated in causing the maternal symptoms of preeclampsia in humans. Increases in sFLT1 observed in this study suggest that IVF procedures could increase the risk for preeclampsia. Moreover, our results indicate that embryo culture is the major factor contributing to most placental abnormalities and should therefore be targeted for optimization.

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Section: Ivf Increases Sflt1 Levels a Protein Implicated In Causing mentioning

confidence: 99%

Assisted reproductive technologies induce temporally specific placental defects and the preeclampsia risk marker sFLT1 in mouse

et al. 2020

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“…Recent study examined the genome-wide DNA methylation patterns in placentas and embryos in correlation with maternal FA supplementation in the prevention of CAs associated with assisted reproductive technologies (ART). Results demonstrate dose-dependent and sex-specific effects of FA intake; moderate dose of FA supplements may be optimal in ART for both sexes [139]. Even more, recent data suggest that genome-wide DNA methylation in the placentas from preterm infants could be associated with maternal socioeconomic status [140].…”

Section: Epigenetic Pattern Transmission From Parent To Offspring: Unmentioning

confidence: 90%

Global DNA Methylation as a Potential Underlying Mechanism of Congenital Disease Development

Stanković¹

2020

DNA Methylation Mechanism

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During the last decade, quantitative measurement of the methylation status in white blood cells (WBCs) has been used as a potential biomarker in a variety of diseases. Long interspersed nucleotide element-1 (LINE-1) has been used widely as a surrogate marker of global DNA methylation. Altered maternal DNA methylation is suggested to be an underlying mechanism in the trisomy 21 and the development of birth defects, including congenital heart defects (CHDs). The molecular mechanisms that underlie the epigenetic regulation of gene transcription are independent of DNA sequence, but they do depend on environmental stimuli, which are especially important in fetal development in utero environment. Folic acid deficiency and genetic variations of folate pathway genes, such as the methylenetetrahydrofolate reductase gene (MTHFR), are foremost among these maternal risk factors. Also, there are exogenous risk factors (cigarette smoking, alcohol intake, medication use, periconceptional maternal supplementation, body mass index, and dietary habits) with impact on maternal LINE-1 methylation. MTHFR C677T genotype/ diet and other environmental factors as significant predictors of LINE-1 DNA methylation in regard to congenital diseases will be discussed in the chapter.

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“…In our study, we showed that FA supplementation (8 mg/kg) has reduced the effect of aging on oocyte aneuploidy by significantly increasing the proportion of normal oocytes in old female mice fed the supplemented FA diet for 24-week. Also, a similar level of FA supplementation (8 mg/kg) was shown to be beneficial for mice undergoing ART by reducing embryonic developmental delay and loss (Rahimi et al, 2019). It should be noted that the 8 mg FA/day supplementation is comparable to the combined FA intake from both fortified foods and over-the-counter prenatal supplements.…”

Section: Implications For Female Reproductive Healthmentioning

confidence: 84%

“…In mice, it has been reported recently that ART use was associated with increased embryonic loss and developmental delay (Rahimi et al, 2019). A high incidence of aneuploidy has been reported in the abortuses of infertile patients who conceived pregnancy using ART (Lathi & Milki, 2004;Nayak et al, 2011) and this high incidence of aneuploidy was associated with advance maternal age (Kushnir & Frattarelli, 2009;Spandorfer et al, 2004).…”

Section: Implications For Female Reproductive Healthmentioning

confidence: 98%

“…Similarly, in women undergoing ART treatment, FA supplementation was associated with better quality and maturation of oocytes, better embryo quality, and higher fertilization (Berker et al, 2009;Czeizel et al, 2010;Gaskins et al, 2014a;Szymanski & Kazdepka-Zieminska, 2003;Westphal et al, 2006). Also, FA supplement intake was associated with reduced embryonic developmental delay and loss in mice undergoing ART (Rahimi et al, 2019). Since the proportion of women who delay pregnancy until increasingly older ages has increased and subsequently more couples are having infertility issues and pursuing ART interventions, there is concern that the incidence of oocyte aneuploidy and consequent disorders in the offspring will also increase.…”

Section: Implications For Female Reproductive Healthmentioning

confidence: 99%

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The Effect of Dietary Folic Acid Supplementation on Female Germ Cell Aneuploidy

Mikwar¹

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Aneuploidy refers to cells with an abnormal number of chromosomes. In female germ cells, aneuploidy originates primarily during the first meiotic division of oogenesis as a result of chromosome segregation errors. Aneuploidy can lead to pregnancy loss and genetic defects in newborns. The incidence of aneuploidy in oocytes increases with advanced maternal age. There is evidence suggesting that dietary intervention can mitigate the effect of maternal age on oocyte aneuploidy. Folic acid, an essential B vitamin, is required for DNA synthesis, chromosome stability, methylation reactions, and proper gene expression; these processes are fundamental for female reproductive physiology. The major hypothesis is that folic acid supplementation will reduce the incidence of oocyte aneuploidy associated with advanced maternal aging. Here, I examined the effect of dietary folic acid supplementation on maternal age-induced oocyte aneuploidy using Bub1-heterozygous mice, a transgenic mouse model of aging-associated oocyte aneuploidy. Results showed that old female mice (24 weeks on a diet) fed a folic acid supplemented diet (8 mg/kg) had significantly more (2-fold) normal oocytes compared to the control group (2 mg/kg). Second, I examined the effect of dietary folic acid deficiency, adequacy and supplementation on colchicine-induced oocyte aneuploidy, as a model for studying ageinduced oocyte aneuploidy. Results showed that colchicine treatment arrested a high proportion of oocytes (68%) in meiosis I leaving only 32% of meiosis II oocytes for analysis. No differences among the diet groups were observed. These preliminary results indicate that a larger sample size of mice would be required to determine whether diet has an effect on colchicne-induced oocyte aneuploidy and/or the use of a lower colchcine dose or mouse strain may prove more efficient.My data suggest that folic acid supplementation might mitigate the effect of aging on oocyte aneuploidy and that folate may play a causal role in the development of oocyte aneuploidies. These iii data, if replicated, suggest that women, especially older women, may benefit from consuming a folic acid supplement in the pre-conception period to avoid aneuploidy-affected pregnancies such as miscarriage and trisomy syndromes.iv

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Moderate maternal folic acid supplementation ameliorates adverse embryonic and epigenetic outcomes associated with assisted reproduction in a mouse model

Cited by 41 publications

References 42 publications

Assisted reproductive technologies induce temporally specific placental defects and the preeclampsia risk marker sFLT1 in mouse

Assisted reproductive technologies induce temporally specific placental defects and the preeclampsia risk marker sFLT1 in mouse

Global DNA Methylation as a Potential Underlying Mechanism of Congenital Disease Development

The Effect of Dietary Folic Acid Supplementation on Female Germ Cell Aneuploidy

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