Your search keyword '"A. A. Malysheva"' showing total 2 results

1. Maternal and Cord Blood Folate Concentrations Are Inversely Associated with Fetal DNA Hydroxymethylation, but Not DNA Methylation, in a Cohort of Pregnant Canadian Women.

Author

Plumptre, Lesley, Tammen, Stephanie A, Sohn, Kyoung-Jin, Masih, Shannon P, Visentin, Carly E, Aufreiter, Susanne, Malysheva, Olga, Schroder, Theresa H, Ly, Anna, Berger, Howard, Croxford, Ruth, Lamers, Yvonne, Caudill, Marie A, Choi, Sang-Woon, O'Connor, Deborah L, and Kim, Young-In

Subjects

DNA methylation, FOLIC acid, PREGNANT women, DNA, BIRTH weight, VITAMINS, CORD blood, DNA metabolism, RESEARCH, LIQUID chromatography, RESEARCH methodology, EVALUATION research, MEDICAL cooperation, COMPARATIVE studies, MASS spectrometry, RESEARCH funding

Abstract

Background: Aberrancies in fetal DNA methylation programming may modify disease susceptibility of the offspring. Maternal folate status has potential to alter fetal DNA methylation.Objectives: We examined the association of maternal and cord blood concentrations of folate and unmetabolized folic acid (UMFA), vitamin B-12, vitamin B-6, and choline with fetal DNA methylation and hydroxymethylation and assessed potential modifying effects of 38 fetal genetic variants in 22 genes.Methods: Nutrient blood concentrations were measured in 368 pregnant women in early pregnancy (12-16 wk of gestation) and at delivery (37-42 wk of gestation) and in cord blood. DNA methylation and hydroxymethylation in cord blood mononuclear cells were quantified by LC-MS/MS. Pearson partial correlations were used to determine the association between individual nutrients and DNA methylation and hydroxymethylation.Results: Serum and RBC folate and plasma UMFA concentrations (primary outcomes) in early pregnancy, at delivery, and in cord blood were not significantly associated with fetal DNA methylation. In contrast, maternal RBC folate in early pregnancy (r = -0.16, P = 0.04) and cord plasma UMFA (r = -0.23, P = 0.004) were inversely correlated with fetal DNA hydroxymethylation. Neither maternal and cord blood concentrations of other nutrients nor fetal genotypes (secondary outcomes) were significantly associated with fetal DNA methylation or hydroxymethylation. Infants born to mothers with RBC folate concentrations in the highest quartile and serum vitamin B-12 concentrations in the lowest quartile in early pregnancy had significantly lower fetal DNA methylation and higher birth weight compared with those born to mothers with lower RBC folate and higher serum vitamin B-12 concentrations (P = 0.01).Conclusions: Maternal and cord blood folate concentrations are associated with fetal DNA hydroxymethylation, but not DNA methylation, in a cohort of pregnant Canadian women. The observation that high folate and low vitamin B-12 maternal status in early pregnancy may be associated with decreased fetal DNA methylation and higher birth weight warrants further investigation. This trial was registered at clinicaltrials.gov as NCT02244684. [ABSTRACT FROM AUTHOR]

Published

2020

2. Formate concentrations in maternal plasma during pregnancy and in cord blood in a cohort of pregnant Canadian women: relations to genetic polymorphisms and plasma metabolites.

Author

Brosnan, John T, Plumptre, Lesley, Brosnan, Margaret E, Pongnopparat, Theerawat, Masih, Shannon P, Visentin, Carly E, Berger, Howard, Lamers, Yvonne, Caudill, Marie A, Malysheva, Olga V, O'Connor, Deborah L, and Kim, Young-In

Subjects

CARBON metabolism, METHIONINE metabolism, PURINE metabolism, AMINO acids, CHILD health services, DELIVERY (Obstetrics), CORD blood, GENETIC polymorphisms, GLYCINE, LONGITUDINAL method, METHIONINE, TRYPTOPHAN, SERINE, ACYCLIC acids, GENOTYPES, PREGNANCY

Abstract

Background One-carbon metabolism, responsible for purine and thymidylate synthesis and transmethylation reactions, plays a critical role in embryonic and fetal development. Formate is a key player in one-carbon metabolism. In contrast to other one-carbon metabolites, it is not linked to tetrahydrofolate, is present in plasma at appreciable concentrations, and may therefore be distributed to different tissues. Objective The study was designed to determine the concentration of formate in cord blood in comparison with maternal blood taken earlier in pregnancy and at delivery and to relate formate concentrations to potential precursors and key fetal genotypes. Methods Formate and amino acids were measured in plasma during early pregnancy (12–16 wk), at delivery (37–42 wk), and in cord blood samples from 215 mothers, of a prospective cohort study. Three fetal genetic variants in one-carbon metabolism were assessed for their association with cord plasma concentrations of formate. Results The formate concentration was ∼60% higher in the cord blood samples than in mothers' plasma. The maternal formate concentrations did not differ between the early pregnancy samples and those taken at delivery. Plasma concentrations of 4 formate precursors (serine, glycine, tryptophan, and methionine) were increased in cord blood compared with the maternal samples. Cord blood formate was influenced by fetal genotype, being ∼12% higher in infants harboring the MTHFR A1298C (rs1801131) AC or CC genotypes and 10% lower in infants harboring the MTHFD1 G1958A (rs2236225) GA or AA genotypes. Conclusions The increased formate concentrations in cord blood may support the increased activity of one-carbon metabolism in infants. As such, it would support increased rates of purine and thymidylate synthesis and the provision of methionine for methylation reactions. [ABSTRACT FROM AUTHOR]

Published

2019