Your search keyword '"Caudill, Marie A"' showing total 17 results

1. Associations between Genetic Variants and Blood Biomarkers of One-Carbon Metabolism in Postmenopausal Women from the Women's Health Initiative Observational Study.

Author

Cheng, Ting-Yuan David, Ilozumba, Mmadili N, Balavarca, Yesilda, Neuhouser, Marian L, Miller, Joshua W, Beresford, Shirley A A, Zheng, Yingye, Song, Xiaoling, Duggan, David J, Toriola, Adetunji T, Bailey, Lynn B, Green, Ralph, Caudill, Marie A, and Ulrich, Cornelia M

Subjects

CARBON metabolism, HOMOCYSTEINE, POSTMENOPAUSE, GENOTYPES, TRANSFERASES, RESEARCH funding, OXIDOREDUCTASES, FOLIC acid, HISTOCOMPATIBILITY antigens, WOMEN'S health

Abstract

Background: Genetic variation in one-carbon metabolism may affect nutrient concentrations and biological functions. However, data on genetic variants associated with blood biomarkers of one-carbon metabolism in US postmenopausal women are limited, and whether these associations were affected by the nationwide folic acid (FA) fortification program is unclear.Objectives: We investigated associations between genetic variants and biomarkers of one-carbon metabolism using data from the Women's Health Initiative Observational Study.Methods: In 1573 non-Hispanic White (NHW) and 282 Black/African American, American Indian/Alaska Native, Asian/Pacific Islander, and Hispanic/Latino women aged 50-79 y, 288 nonsynonymous and tagging single-nucleotide variants (SNVs) were genotyped. RBC folate, plasma folate, pyridoxal-5'-phosphate (PLP), vitamin B-12, homocysteine, and cysteine concentrations were determined in 12-h fasting blood. Multivariable linear regression tested associations per variant allele and for an aggregated genetic risk score. Effect modifications before, during, and after nationwide FA fortification were examined.Results: After correction for multiple comparisons, among NHW women, 5,10-methylenetetrahydrofolate reductase (MTHFR) rs1801133 (677C→T) variant T was associated with lower plasma folate (-13.0%; 95% CI: -17.3%, -8.6%) and higher plasma homocysteine (3.5%; 95% CI: 1.7%, 5.3%) concentrations. Other associations for nonsynonymous SNVs included DNMT3A rs11695471 (T→A) with plasma PLP; EHMT2 rs535586 (G→A), TCN2 rs1131603 (L349S A→G), and TCN2 rs35838082 (R188W G→A) with plasma vitamin B-12; CBS rs2851391 (G→A) with plasma homocysteine; and MTHFD1 rs2236224 (G→A) and rs2236225 (R653Q G→A) with plasma cysteine. The influence of FA fortification on the associations was limited. Highest compared with lowest quartiles of aggregated genetic risk scores from SNVs in MTHFR and MTRR were associated with 14.8% to 18.9% lower RBC folate concentrations. Gene-biomarker associations were similar in women of other races/ethnicities.Conclusions: Our findings on genetic variants associated with several one-carbon metabolism biomarkers may help elucidate mechanisms of maintaining B vitamin status in postmenopausal women. [ABSTRACT FROM AUTHOR]

Published

2022

2. Associations between Plasma Choline Metabolites and Genetic Polymorphisms in One-Carbon Metabolism in Postmenopausal Women: The Women's Health Initiative Observational Study.

Author

Ilozumba, Mmadili N, Cheng, Ting-Yuan D, Neuhouser, Marian L, Miller, Joshua W, Beresford, Shirley A A, Duggan, David J, Toriola, Adetunji T, Song, Xiaoling, Zheng, Yingye, Bailey, Lynn B, Shadyab, Aladdin H, Liu, Simin, Malysheva, Olga, Caudill, Marie A, and Ulrich, Cornelia M

Subjects

POSTMENOPAUSE, FOLIC acid, WOMEN'S health, GENETIC polymorphisms, SINGLE nucleotide polymorphisms, CHOLINE, GENETICS, CASE-control method, COLORECTAL cancer, TRANSFERASES, GENES, RESEARCH funding, OXIDOREDUCTASES

Abstract

Background: Choline plays an integral role in one-carbon metabolism in the body, but it is unclear whether genetic polymorphisms are associated with variations in plasma choline and its metabolites.Objectives: This study aimed to evaluate the association of genetic variants in choline and one-carbon metabolism with plasma choline and its metabolites.Methods: We analyzed data from 1423 postmenopausal women in a case-control study nested within the Women's Health Initiative Observational Study. Plasma concentrations of choline, betaine, dimethylglycine (DMG), and trimethylamine N-oxide were determined in 12-h fasting blood samples collected at baseline (1993-1998). Candidate and tagging single-nucleotide polymorphisms (SNPs) were genotyped in betaine-homocysteine S-methyltransferase (BHMT), BHMT2, 5,10-methylenetetrahydrofolate reductase (MTHFR), methylenetetrahydrofolate dehydrogenase (NADP+ dependent 1) (MTHFD1), 5-methyltetrahydrofolate-homocysteine methyltransferase (MTR), and 5-methyltetrahydrofolate-homocysteine methyltransferase reductase (MTRR). Linear regression was used to derive percentage difference in plasma concentrations per variant allele, adjusting for confounders, including B-vitamin biomarkers. Potential effect modification by plasma vitamin B-12, vitamin B-6, and folate concentrations and folic-acid fortification periods was examined.Results: The candidate SNP BHMT R239Q (rs3733890) was associated with lower concentrations of plasma betaine and DMG concentrations (-4.00% and -6.75% per variant allele, respectively; both nominal P < 0.05). Another candidate SNP, BHMT2 rs626105 A>G, was associated with higher plasma DMG concentration (13.0%; P < 0.0001). Several tagSNPs in these 2 genes were associated with plasma concentrations after correction for multiple comparisons. Vitamin B-12 status was a significant effect modifier of the association between the genetic variant BHMT2 rs626105 A>G and plasma DMG concentration.Conclusions: Genetic variations in metabolic enzymes were associated with plasma concentrations of choline and its metabolites. Our findings contribute to the knowledge on the variation in blood nutrient concentrations in postmenopausal women. [ABSTRACT FROM AUTHOR]

Published

2020

3. 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

4. Low Dietary Folate Interacts with MTHFD1 Synthetase Deficiency in Mice, a Model for the R653Q Variant, to Increase Incidence of Developmental Delays and Defects.

Author

Christensen, Karen E, Bahous, Renata H, Hou, Wenyang, Deng, Liyuan, Malysheva, Olga V, Arning, Erland, Bottiglieri, Teodoro, Caudill, Marie A, Jerome-Majewska, Loydie A, and Rozen, Rima

Subjects

FOLIC acid, ENRICHED foods, METHYLENETETRAHYDROFOLATE reductase, HUMAN abnormalities, METABOLITES, ENZYME metabolism, ADENOSYLMETHIONINE, ANIMAL experimentation, BIOLOGICAL models, COMPARATIVE studies, DIET, ENZYMES, FETAL growth retardation, FOLIC acid deficiency, GENETIC polymorphisms, HYDROLASES, LIVER, RESEARCH methodology, MEDICAL cooperation, MICE, OXIDOREDUCTASES, PLACENTA, PREGNANCY complications, RESEARCH, RESEARCH funding, EVALUATION research, FETAL development, DNA methylation, GENOTYPES, DISEASE complications

Abstract

Background: Suboptimal folate intake, a risk factor for birth defects, is common even in areas with folate fortification. A polymorphism in methylenetetrahydrofolate dehydrogenase 1 (MTHFD1), R653Q (MTHFD1 c.1958 G > A), has also been associated with increased birth defect risk, likely through reduced purine synthesis.Objective: We aimed to determine if the interaction of MTHFD1 synthetase deficiency and low folate intake increases developmental abnormalities in a mouse model for MTHFD1 R653Q.Methods: Female Mthfd1S+/+ and Mthfd1S+/- mice were fed control or low-folate diets (2 and 0.3 mg folic acid/kg diet, respectively) before mating and during pregnancy. Embryos and placentas were examined for anomalies at embryonic day 10.5. Maternal 1-carbon metabolites were measured in plasma and liver.Results: Delays and defects doubled in litters of Mthfd1S+/- females fed low-folate diets compared to wild-type females fed either diet, or Mthfd1S+/- females fed control diets [P values (defects): diet 0.003, maternal genotype 0.012, diet × maternal genotype 0.014]. These adverse outcomes were associated with placental dysmorphology. Intrauterine growth restriction was increased by embryonic Mthfd1S+/- genotype, folate deficiency, and interaction of maternal Mthfd1S+/- genotype with folate deficiency (P values: embryonic genotype 0.045, diet 0.0081, diet × maternal genotype 0.0019). Despite a 50% increase in methylenetetrahydrofolate reductase expression in low-folate maternal liver (P diet = 0.0007), methyltetrahydrofolate concentration decreased 70% (P diet <0.0001) and homocysteine concentration doubled in plasma (P diet = 0.0001); S-adenosylmethionine decreased 40% and S-adenosylhomocysteine increased 20% in low-folate maternal liver (P diet = 0.002 and 0.0002, respectively).Conclusions: MTHFD1 synthetase-deficient mice are more sensitive to low folate intake than wild-type mice during pregnancy. Reduced purine synthesis due to synthetase deficiency and altered methylation potential due to low folate may increase pregnancy complications. Further studies and individualized intake recommendations may be required for women homozygous for the MTHFD1 R653Q variant. [ABSTRACT FROM AUTHOR]

Published

2018

5. Moderate folic acid supplementation and MTHFDI-synthetase deficiency in mice, a model for the R653Q variant, result in embryonic defects and abnormal placental development.

Author

Christensen, Karen E., Wenyang Hau, Bahous, Renata H., Liyuan Deng, Malysheva, Olga V., Arning, Erland, Bottiglieri, Teodoro, Caudill, Marie A., Jerome-Majewska, Loydie A., and Rozen, Rima

Subjects

FOLIC acid in animal nutrition, NUTRITION & reproduction, DIETARY supplements, NUTRITION in pregnancy, FETAL nutrition, FETAL development, FOLIC acid in human nutrition, HUMAN abnormalities, ANALYSIS of variance, ANIMAL experimentation, DEVELOPMENTAL disabilities, ENZYMES, FERTILITY, FISHER exact test, FOLIC acid, GENETIC polymorphisms, HISTOLOGICAL techniques, EVALUATION of medical care, MICE, PLACENTA, PROBABILITY theory, REGRESSION analysis, RESEARCH funding, STATISTICS, LOGISTIC regression analysis, STATISTICAL power analysis, DATA analysis, EMBRYOS, DATA analysis software, DESCRIPTIVE statistics, GENOTYPES, IN vivo studies, PREGNANCY

Abstract

Background: Moderately high folic acid intake in pregnant women has led to concerns about deleterious effects on the mother and fetus. Common polymorphisms in folate genes, such as methylenetetrahydrofolate dehydrogenase-methenyltetrahydrofolate cyclohydrolaseformyltetrahydrofolate synthetase (MTHFD1) R653Q, may modulate the effects of elevated folic acid intake. Objectives: We investigated the effects of moderate folic acid supplementation on reproductive outcomes and assessed the potential interaction of the supplemented diet with MTHFDI-synthetase (MthfdlS) deficiency in mice, which is a model for the R653Q variant. Design: Female Mthfd1S+/+ and Mthfd1S+/- mice were fed a folic acid-supplemented diet (FASD) (5-fold higher than recommended) or control diets before mating and during pregnancy. Embryos and placentas were assessed for developmental defects at embryonic day 10.5 (E10.5). Maternal folate and choline metabolites and gene expression in folate-related pathways were examined. Results: The combination of FASD and maternal MTHFDI-synthetase deficiency led to a greater incidence of defects in E10.5 embryos (diet × maternal genotype, P = 0.0016; diet × embryonic genotype, P = 0.054). The methylenetetrahydrofolate reductase (MTHFR) protein and methylation potential [ratio of S-adenosylmethionine (major methyl donor):S-adenosylhomocysteine) were reduced in maternal liver. Although 5-methyltetrahydrofolate (methylTHF) was higher in maternal circulation, the methylation potential was lower in embryos. The presence of developmental delays and defects in Mthfd1S+/- embryos was associated with placental defects (P = 0.003). The labyrinth layer failed to form properly in the majority of abnormal placentas, which compromised the integration of the maternal and fetal circulation and presumably the transfer of methylTHF and other nutrients. Conclusions: Moderately higher folate intake and MTHFD1- synthetase deficiency in pregnant mice result in a lower methylation potential in maternal liver and embryos and a greater incidence of defects in embryos. Although maternal circulating methylTHF was higher, it may not have reached the embryos because of abnormal placental development; abnormal placentas were observed predominantly in abnormally developed embryos. These findings have implications for women with high folate intakes, particularly if they are polymorphic for MTHFD1 R653Q. [ABSTRACT FROM AUTHOR]

Published

2016

6. Vitamin D Metabolism Varies among Women in Different Reproductive States Consuming the Same Intakes of Vitamin D and Related Nutrients.

Author

Heyjun Park, Brannon, Patsy M., West, Allyson A., Jian Yan, Xinyin Jiang, Perry, Cydne A., Malysheva, Olga V., Mehta, Saurabh, Caudill, Marie A., Park, Heyjun, Yan, Jian, and Jiang, Xinyin

Subjects

VITAMIN D metabolism, WOMEN'S nutrition, REPRODUCTIVE health, BIOMARKERS, CHOLINE, LINEAR statistical models, CARRIER proteins, COMPARATIVE studies, DIET, DIETARY supplements, HUMAN reproduction, INGESTION, LACTATION, RESEARCH methodology, MEDICAL cooperation, RESEARCH, RESEARCH funding, VITAMIN D, EVALUATION research, CHOLECALCIFEROL, RANDOMIZED controlled trials

Abstract

Background: The impact of the reproductive state on vitamin D metabolism and requirements is uncertain in part because of a lack of studies with controlled dietary intakes of vitamin D and related nutrients.Objective: We aimed to quantify the impact of the reproductive state on a panel of vitamin D biomarkers among women of childbearing age consuming equivalent amounts of vitamin D and related nutrients.Methods: Nested within a feeding study providing 2 doses of choline, healthy pregnant (26-29 wk gestation; n = 26), lactating (5 wk postpartum; n = 28), and control (nonpregnant/nonlactating; n = 21) women consumed a single amount of vitamin D (511 ± 48 IU/d: 311 ± 48 IU/d from diet and 200 IU/d as supplemental cholecalciferol) and related nutrients (1.6 ± 0.4 g Ca/d and 1.9 ± 0.3 g P/d) for 10 wk. Vitamin D biomarkers were measured in blood obtained at baseline and study end, and differences in biomarker response among the reproductive groups were assessed with linear mixed models adjusted for influential covariates (e.g., body mass index, season, race/ethnicity).Results: At study end, pregnant women had higher (P < 0.01) circulating concentrations of 25-hydroxyvitamin D [25(OH)D; 30%], 1,25-dihydroxyvitamin D [1,25(OH)2D; 80%], vitamin D binding protein (67%), and C3 epimer of 25(OH)D3 (100%) than control women. Pregnant women also had higher (P ≤ 0.04) ratios of 25(OH)D to 24,25-dihydroxyvitamin D [24,25(OH)2D; 40%] and 1,25(OH)2D to 25(OH)D (50%) than control women. In contrast, no differences (P ≥ 0.15) in vitamin D biomarkers were detected between the lactating and control groups. Notably, the study vitamin D dose of 511 IU/d achieved vitamin D adequacy in most participants (95%) regardless of their reproductive state.Conclusions: The higher concentrations of vitamin D biomarkers among pregnant women than among control women suggest that metabolic adaptations, likely involving the placenta, transpire to enhance vitamin D supply during pregnancy. The study findings also support the adequacy of the current vitamin D RDA of 600 IU for achieving serum 25(OH)D concentrations ≥50 nmol/L among women differing in their reproductive state. This trial was registered at clinicaltrials.gov as NCT01127022. [ABSTRACT FROM AUTHOR]

Published

2016

7. Folate-mediated one-carbon metabolism genes and interactions with nutritional factors on colorectal cancer risk: Women's Health Initiative Observational Study.

Author

Cheng, Ting‐Yuan David, Makar, Karen W., Neuhouser, Marian L., Miller, Joshua W., Song, Xiaoling, Brown, Elissa C., Beresford, Shirley A. A., Zheng, Yingye, Poole, Elizabeth M., Galbraith, Rachel L., Duggan, David J., Habermann, Nina, Bailey, Lynn B., Maneval, David R., Caudill, Marie A., Toriola, Adetunji T., Green, Ralph, and Ulrich, Cornelia M.

Subjects

FOLIC acid metabolism, BIOMARKERS, COLON tumors, DISEASE susceptibility, GENETIC polymorphisms, OXIDOREDUCTASES, RECTUM tumors, RESEARCH funding, RISK assessment, TRANSCRIPTION factors, TRANSFERASES, VITAMIN B complex, DNA-binding proteins, LOGISTIC regression analysis, CASE-control method, POSTMENOPAUSE, NUCLEAR proteins, DESCRIPTIVE statistics, TUMOR risk factors, CANCER risk factors

Abstract

Background: Investigations of folate-mediated one-carbon metabolism (FOCM) genes and gene-nutrient interactions with respect to colorectal cancer (CRC) risk are limited to candidate polymorphisms and dietary folate. This study comprehensively investigated associations between genetic variants in FOCM and CRC risk and whether the FOCM nutrient status modified these associations.Methods: Two hundred eighty-eight candidate and tagging single-nucleotide polymorphisms (SNPs) in 30 FOCM genes were genotyped for 821 incident CRC case-control matched pairs in the Women's Health Initiative Observational Study cohort. FOCM biomarkers (red blood cell [RBC] folate, plasma folate, pyridoxal-5'-phosphate [PLP], vitamin B12, and homocysteine) and self-reported alcohol consumption were measured at the baseline. Conditional logistic regression was implemented; effect modification was examined on the basis of known enzyme-nutrient relations.Results: Statistically significant associations were observed between CRC risk and functionally defined candidate SNPs of methylenetetrahydrofolate dehydrogenase 1 (MTHFD1; K134R), 5-methyltetrahydrofolate-homocysteine methyltransferase reductase (MTRR; P450R), and PR domain containing 2 with ZNF domain (PRDM2; S450N) and a literature candidate SNP of thymidylate synthase (TYMS; g.676789A>T; nominal P < .05). In addition, suggestive associations were noted for tagging SNPs in cystathionine-β-synthase (CBS), dihydrofolate reductase (DHFR), DNA (cytosine-5-)-methyltransferase 3β (DNMT3B), methionine adenosyltransferase I α (MAT1A), MTHFD1, and MTRR (nominal P < .05; adjusted P, not significant). Significant interactions between nutrient biomarkers and candidate polymorphisms were observed for 1) plasma/RBC folate and folate hydrolase 1 (FOLH1), paraoxonase 1 (PON1), transcobalamin II (TCN2), DNMT1, and DNMT3B; 2) plasma PLP and TYMS TS3; 3) plasma B12 and betaine-homocysteine S-methyltransferase 2 (BHMT2); and 4) homocysteine and methylenetetrahydrofolate reductase (MTHFR) and alanyl-transfer RNA synthetase (AARS).Conclusions: Genetic variants in FOCM genes are associated with CRC risk among postmenopausal women. FOCM nutrients continue to emerge as effect modifiers of genetic influences on CRC risk. [ABSTRACT FROM AUTHOR]

Published

2015

8. High folic acid consumption leads to pseudo-MTHFR deficiency, altered lipid metabolism, and liver injury in mice.

Author

Christensen, Karen E., Mikael, Leonie G., Kit-Yi Leung, Levesque, Nancy, Liyuan Deng, Qing Wu, Malysheva, Olga V., Best, Ana, Caudill, Marie A., Greene, Nicholas D. E., and Rozen, Rima

Subjects

FOLIC acid metabolism, ANALYSIS of variance, ANIMAL experimentation, FOLIC acid, GENE expression, LIVER, MICE, OXIDOREDUCTASES, POLYMERASE chain reaction, PROBABILITY theory, RESEARCH funding, WESTERN immunoblotting, SAMPLE size (Statistics), REVERSE transcriptase polymerase chain reaction, DATA analysis software, DESCRIPTIVE statistics, GENOTYPES

Abstract

Background: Increased consumption of folic acid is prevalent, leading to concerns about negative consequences. The effects of folic acid on the liver, the primary organ for folate metabolism, are largely unknown. Methylenetetrahydrofolate reductase (MTHFR) provides methyl donors for S-adenosylmethionine (SAM) synthesis and methylation reactions. Objective: Our goal was to investigate the impact of high folic acid intake on liver disease and methyl metabolism. Design: Folic acid-supplemented diet (FASD, 10-fold higher than recommended) and control diet were fed to male Mthfr+/+ and Mthfr+/- mice for 6 mo to assess gene-nutrient interactions. Liver pathology, folate and choline metabolites, and gene expression in folate and lipid pathways were examined. Results: Liver and spleen weights were higher and hematologic profiles were altered in FASD-fed mice. Liver histology revealed unusually large, degenerating cells in FASD Mthfr+/- mice, consistent with nonalcoholic fatty liver disease. High folic acid inhibited MTHFR activity in vitro, and MTHFR protein was reduced in FASD-fed mice. 5-Methyl-tetrahydrofolate, SAM, and SAM/S-adenosylhomocysteine ratios were lower in FASD and Mthfr+/- livers. Choline metabolites, including phosphatidylcholine, were reduced due to genotype and/or diet in an attempt to restore methylation capacity through choline/betaine-dependent SAM synthesis. Expression changes in genes of one-carbon and lipid metabolism were particularly significant in FASD Mthfr+/- mice. The latter changes, which included higher nuclear sterol regulatory element-binding protein 1, higher Srepb2 messenger RNA (mRNA), lower farnesoid X receptor (Nr1h4) mRNA, and lower Cyp7a1 mRNA, would lead to greater lipogenesis and reduced cholesterol catabolism into bile. Conclusions: We suggest that high folic acid consumption reduces MTHFR protein and activity levels, creating a pseudo-MTHFR deficiency. This deficiency results in hepatocyte degeneration, suggesting a 2-hit mechanism whereby mutant hepatocytes cannot accommodate the lipid disturbances and altered membrane integrity arising from changes in phospholipid/lipid metabolism. These preliminary findings may have clinical implications for individuals consuming high-dose folic acid supplements, particularly those who are MTHFR deficient. [ABSTRACT FROM AUTHOR]

Published

2015

9. Pregnancy alters choline dynamics: results of a randomized trial using stable isotope methodology in pregnant and nonpregnant women.

Author

Jian Yan, Xinyin Jiang, West, Allyson A., Perry, Cydne A., Malysheva, Olga V., Brenna, J. Thomas, Stabler, Sally P., Allen, Robert H., Gregory III, Jesse F., and Caudill, Marie A.

Subjects

BLOOD testing, ANALYSIS of variance, CHOLINE, PROBABILITY theory, REGRESSION analysis, RESEARCH funding, STATISTICS, T-test (Statistics), URINALYSIS, DATA analysis, RANDOMIZED controlled trials, DATA analysis software, DESCRIPTIVE statistics, PREGNANCY

Abstract

Background: Although biomarkers of choline metabolism are altered by pregnancy, little is known about the influence of human pregnancy on the dynamics of choline-related metabolic processes. Objective: This study used stable isotope methodology to examine the effects of pregnancy on choline partitioning and the metabolic activity of choline-related pathways. Design: Healthy third-trimester pregnant (n = 26; initially week 27 of gestation) and nonpregnant (n = 21) women consumed 22% of their total choline intake (480 or 930 mg/d) as methyl-d9-choline for the final 6 wk of a 12-wk feeding study. Results: Plasma d9-betaine:d9-phosphatidylcholine (PC) was lower (P ≤ 0.04) in pregnant than in nonpregnant women, suggesting greater partitioning of choline into the cytidine diphosphate-choline (CDP-choline) PC biosynthetic pathway relative to betaine synthesis during pregnancy. Pregnant women also used more choline-derived methyl groups for PC synthesis via phosphatidylethanolamine N-methyltransferase (PEMT) as indicated by comparable increases in PEMT-PC enrichment in pregnant and nonpregnant women despite unequal (pregnant > nonpregnant; P < 0.001) PC pool sizes. Pregnancy enhanced the hydrolysis of PEMT-PC to free choline as shown by greater (P < 0.001) plasma d3-choline:d3-PC. Notably, d3-PC enrichment increased (P ≤ 0.011) incrementally from maternal to placental to fetal compartments, signifying the selective transfer of PEMT-PC to the fetus. Conclusions: The enhanced use of choline for PC production via both the CDP-choline and PEMT pathways shows the substantial demand for choline during late pregnancy. Selective partitioning of PEMT-PC to the fetal compartment may imply a unique requirement of PEMT-PC by the developing fetus. This trial was registered at clinicaltrials.gov as NCT01127022. [ABSTRACT FROM AUTHOR]

Published

2013

10. Choline intake influences phosphatidylcholine DHA enrichment in nonpregnant women but not in pregnant women in the third trimester.

Author

West, Allyson A., Jian Yan, Xinyin Jiang, Perry, Cydne A., Innis, Sheila M., and Caudill, Marie A.

Subjects

ERYTHROCYTES, CHOLINE, CLINICAL trials, CONFIDENCE intervals, DIETARY supplements, GENES, LECITHIN, LONGITUDINAL method, MOTHERS, NUTRITIONAL requirements, THIRD trimester of pregnancy, RESEARCH funding, STATISTICAL sampling, STATISTICS, U-statistics, WOMEN'S health, DOCOSAHEXAENOIC acid, DATA analysis, RANDOMIZED controlled trials, PRE-tests & post-tests, DATA analysis software, PREGNANCY

Abstract

Background: Phosphatidylcholine (PC) produced via the S-adenosylmethionine-dependent phosphatidylethanolamine (PE) N-methyltransferase (PEMT) pathway is enriched with docosahexaenoic acid (DHA). DHA plays a critical role in fetal development and is linked to health endpoints in adulthood. It is unknown whether choline, which can serve as a source of S-adenosylmethionine methyl groups, influences PC-DHA or the PC:PE ratio in pregnant and nonpregnant women. Objective: This study tested whether choline intake affects indicators of choline-related lipid metabolism, including erythrocyte and plasma PC-DHA and PC:PE ratios, in pregnant women in the third trimester and nonpregnant women. Design: Pregnant (n = 26) and nonpregnant (n = 21) women consumed 480 or 930 mg choline/d and a daily DHA supplement for 12 wk. Blood was collected at baseline and at the midpoint and end of the study. PC-DHA was analyzed as the proportion of total PC fatty acids. Results: Pregnant women had greater (P = 0.002) PC-DHA concentrations than did nonpregnant women at baseline. The proportion of erythrocyte and plasma PC-DHA increased (P ≤ 0.002) in pregnant and nonpregnant women regardless of choline intake. However, in nonpregnant women, consumption of 930 mg choline/d led to greater (P < 0.001) erythrocyte PC-DHA and a more rapid increase (P < 0.001) in plasma PC-DHA. Lower (P = 0.001-0.024) erythrocyte and plasma PC:PE in pregnant women was not modified by choline intake. Conclusions: A higher choline intake may increase PEMT activity, resulting in greater PC-DHA enrichment of the PC molecule in nonpregnant women. Increased production of PC-DHA during pregnancy indicates elevated PEMT activity and a higher demand for methyl donors. This trial was registered at clinicaltrials.gov as NCT01127022. [ABSTRACT FROM AUTHOR]

Published

2013

11. Folate-status response to a controlled folate intake in nonpregnant, pregnant, and lactating women.

Author

West, Allyson A, Jian Yan, Perry, Cydne A, Xinyin Jiang, Malysheva, Olga V, and Caudill, Marie A

Subjects

BREAST milk, CLINICAL trials, DIET, DIETARY supplements, DOSE-effect relationship in pharmacology, FOLIC acid, LACTATION, LONGITUDINAL method, THIRD trimester of pregnancy, PUERPERIUM, RESEARCH funding, STATISTICAL sampling, STATISTICS, U-statistics, WOMEN'S health, DATA analysis, PRE-tests & post-tests, DATA analysis software, DESCRIPTIVE statistics, NUTRITIONAL status

Abstract

Background: Folate dose-response studies in women of childbear- ing age who consumed a folie acid (FA)-containing multivitamin in the era of FA fortification are lacking. Objective: We sought to investigate folate-status response to a known folate dose comprising an FA-containing prenatal supplement (750 μg/d) plus natural food folate (400 μg/d) in third-trimester pregnant women, lactating women 5-15 wk postpartum, and nonpregnant women. Design: Pregnant (n = 26), lactating (n = 28), and nonpregnant (n = 21) women consumed the study folate dose under controlled intake conditions for 10-12 wk. Blood, urine, and breast milk were collected at baseline, study midpoint, and study end. Results: Study-end serum total folate concentrations averaged ~ 30 ng/mL and did not differ by physiologic group {P = 0.876). Study- end urinary folate excretion represented ~9-43% of total folate intake and ranged from 100 to 500 μg/d. Third-trimester pregnant women excreted less urinary folate than did lactating (P = 0.075) and nonpregnant (P < 0.001) women. Lactating women excreted less {P < 0.001) urinary FA than did nonpregnant women. Breast- milk total folate concentrations remained constant (P = 0.244; 61.8 ng/mL at study end), whereas breast-milk FA concentrations increased (P = 0.003) to 24.1 ng/mL at study end. Conclusions: The consumption of the study folate dose yielded a supranutritional folate status regardless of the physiologic state. Based on urinary folate excretion, folate use was greatest to least: pregnant > lactating > nonpregnant women. Breast-milk folate species were responsive to maternal folate intake, and FA made up ~40% of breast-milk total folate at study end. These findings warrant revisiting prenatal supplement FA formulation in populations exposed to FA-fortification programs. This trial was registered at clinicaltrials.gov as NCT01127022. [ABSTRACT FROM AUTHOR]

Published

2012

12. Maternal choline intake modulates maternal and fetal biomarkers of choline metabolism in humans.

Author

Yan, Jian, Jiang, Xinyin, West, Allyson A., Perry, Cydne A., Malysheva, Olga V., Devapatla, Srisatish, Pressman, Eva, Vermeylen, Françoise, Stabler, Sally P., Allen, Robert H., and Caudill, Marie A.

Subjects

ANALYSIS of variance, BIOMARKERS, CHOLINE, CLINICAL trials, DIET, CORD blood, GRAPHIC arts, KIDNEY function tests, LIQUID chromatography, LIVER function tests, LONGITUDINAL method, MASS spectrometry, PLACENTA, POLYMERASE chain reaction, THIRD trimester of pregnancy, QUESTIONNAIRES, RESEARCH funding, STATISTICAL sampling, T-test (Statistics), URINALYSIS, WOMEN'S health, BODY mass index, REVERSE transcriptase polymerase chain reaction, DATA analysis software, DESCRIPTIVE statistics, PREGNANCY, ADULTS

Abstract

Background: In 1998 choline Adequate Intakes of 425 and 450 mg/d were established for nonpregnant and pregnant women, respectively. However, to our knowledge, no dose-response studies have been conducted to evaluate the effects of pregnancy or maternal choline intake on biomarkers of choline metabolism. Objective: We sought to quantify the effects of pregnancy and maternal choline intake on maternal and fetal indicators of choline metabolism. Design: Healthy pregnant (n = 26; 27 wk gestation) and nonpregnant (n = 21) women were randomly assigned to receive 480 or 930 mg choline/d for 12 wk. Fasting blood samples and placental tissue and umbilical cord venous blood were collected and analyzed for choline and its metabolites. Results: Regardless of the choline intake, pregnant women had higher circulating concentrations of choline (30%; P < 0.001) but lower concentrations of betaine, dimethylglycine, sarcosine, and methionine (13-55%; P < 0.001). Obligatory losses of urinary choline and betaine in pregnant women were -2-4 times as high (P < 0.02) as those in nonpregnant women. A higher choline intake yielded higher concentrations of choline, betaine, dimethylglycine, and sarcosine (12- 46%; P < 0.08) in both pregnant and nonpregnant women without affecting urinary choline excretion. The higher maternal choline intake also led to a doubling of dimethylglycine in cord plasma (P = 0.002). Conclusion: These data suggest that an increment of 25 mg choline/d to meet the demands of pregnancy is insufficient and show that a higher maternal choline intake increases the use of choline as a methyl donor in both maternal and fetal compartments. This trial was registered at clinicaltrials.gov as NCT01127022. [ABSTRACT FROM AUTHOR]

Published

2012

13. Antagonism of hypervitaminosis A-induced anterior neural tube closure defects with a methyl-donor deficiency in murine whole-embryo culture.

Author

Santos-Guzmán, Jesús, Arnhold, Thomas, Nau, Heinz, Wagner, Conrad, Fahr, Sharon H., Mao, Gloria H., Caudill, Marie A., Wang, Jennie C., Henning, Susanne M., Swendseid, Marian E., Collins, Michael D., Santos-Guzmán, Jesús, and Mao, Gloria E

Subjects

HYPERVITAMINOSIS, NEURAL tube defects, EMBRYOS, MICE, ANIMAL experimentation, BIOLOGICAL models, COMPARATIVE studies, DIET, HUMAN reproduction, RESEARCH methodology, MEDICAL cooperation, METHYLATION, RATS, RESEARCH, RESEARCH funding, TISSUE culture, VITAMIN A, EVALUATION research, DISEASE complications

Abstract

The interaction of a dietary excess of vitamin A (retinoid) and deficiency of methyl-donor compounds was examined in murine early-organogenesis embryonic development. Female mice were fed one of six diets from the time of vaginal plug detection until gestational d 8.0, when embryos were removed and grown in whole embryo culture for 46 h, using serum from rats fed the same diet for 36 d as the culture medium. The six diets were either methyl-donor deficient (designated -FCM: devoid of folic acid, choline and supplemental L-methionine, but having methionine as a component of the protein portion of the diet) or methyl-donor sufficient (designated +FCM: containing folic acid, choline and L-methionine supplementation), in combination with one of three concentrations of retinyl palmitate (0.016, 0.416 or 4.016 g/kg diet). The high dose of retinyl palmitate induced a failure of anterior neuropore closure and hypoplasia of the visceral arches, both of which were significantly ameliorated by simultaneous administration of the methyl-donor-deficient diet. The primary acidic retinoid detected in the rat serum was 9,13-di-cis-retinoic acid, although we hypothesize that teratogenic retinoids were formed by embryonic biotransformation of the retinyl esters to toxic metabolites. Biochemical measurements of metabolites in relevant pathways were performed. We propose that the amelioration of these malformations may be used to determine biochemical pathways critical for retinoid teratogenesis. [ABSTRACT FROM AUTHOR]

Published

2003

14. Consumption of the folate breakdown product para-aminobenzoylglutamate contributes minimally to urinary folate catabolite excretion in humans: investigation using [(13)C(5)]para-aminobenzoylglutamate.

Author

Caudill, Marie A., Bailey, Lynn B., Gregory III, Jesse F., and Gregory, Jesse F 3rd

Subjects

*FOLIC acid, *METABOLISM, *CLINICAL trials, *COMPARATIVE studies, *GLUTAMIC acid, *ISOTOPES, *RESEARCH methodology, *MEDICAL cooperation, *RESEARCH, *RESEARCH funding, *STATISTICAL sampling, *EVALUATION research, *RANDOMIZED controlled trials

Abstract

Folate catabolism represents the major route of folate turnover in humans and involves cleavage of the C9-N10 bond producing a pterin and para-aminobenzoylglutamate (pABG). Thus, the quantitation of pABG and its acetylated more predominant counterpart para-acetamidobenzolyglutamate (apABG) may be useful in assessing folate status and requirements. However, until the in vivo fate of dietary pABG is understood, studies using pABG excretion parameters can not be fully interpreted. As part of a larger study, an oral dose (376 nmol or 100 micro g) of [(13)C(5)]pABG in 40 mL apple juice was ingested by pregnant women (2nd trimester, n = 2) and nonpregnant controls (n = 2) consuming controlled total folate intakes of 450 or 850 micro g/d. Urine collections (24 h) were obtained over the next 4 d and gas chromatography-mass spectrometry was used to measure urinary [(13)C(5)]pABG, [(13)C(5)]apABG and [(13)C(5)]folate. Of the 376 nmol [(13)C(5)]pABG administered, only 17.5 +/- 6.4 nmol; mean +/- SEM) or 4.6 +/- 1.7% of the dose was accounted for in the urine. Most of the excreted [(13)C(5)]pABG, in acetamido form (15.1 +/- 5.3 nmol), was excreted the day after the dose. No urinary [(13)C(5)]folate was detected. Folate intake did not seem to influence the urinary excretion of total pABG derived from oral pABG, whereas pregnancy may lessen total pABG excretion derived from oral pABG. Overall, these results suggest that the contribution of dietary pABG to the urinary excretion of pABG and apABG is small. [ABSTRACT FROM AUTHOR]

Published

2002

15. Kinetics of folate turnover in pregnant women (second trimester) and nonpregnant controls during folic acid supplementation: stable-isotopic labeling of plasma folate, urinary folate and folate catabolites shows subtle effects of pregnancy on turnover of folate pools.

Author

Gregory III, Jesse F., Caudill, Marie A., Opalko, F. Jeffery, Bailey, Lynn B., Gregory, J F 3rd, Caudill, M A, Opalko, F J, and Bailey, L B

Subjects

*NUTRITION in pregnancy, *METABOLISM in pregnancy, *FOLIC acid metabolism, *GLUTAMIC acid metabolism, *BIOTRANSFORMATION (Metabolism), *CLINICAL trials, *COMPARATIVE studies, *DIET, *DYNAMICS, *FOLIC acid, *GAS chromatography, *GLUTAMIC acid, *ISOTOPES, *MASS spectrometry, *RESEARCH methodology, *MEDICAL cooperation, *SECOND trimester of pregnancy, *RESEARCH, *RESEARCH funding, *EVALUATION research, *RANDOMIZED controlled trials, *CASE-control method, *CARBOCYCLIC acids, *NUTRITIONAL status

Abstract

To investigate the effects of pregnancy on folate metabolism, we conducted an 84-d study in second-trimester (gestational wk 14-25) pregnant women (n = 6) and nonpregnant controls (n = 6) with stable-isotopic tracer methods. All subjects were fed a diet containing approximately 272 nmol/d (120 microg/d) folate from food, along with supplemental folic acid that contained 15% [3',5'-(2)H(2)] folic acid ([(2)H(2)]folic acid) during d 1--41 and that was unlabeled during d 42--84 to yield a constant total folate intake of 1.02 or 1.93 micromol/d (450 or 850 microg/d). Isotopic enrichment of plasma folate, urinary folate and the urinary folate catabolites para-aminobenzoylglutamate (pABG) and para-acetamidobenzoylglutamate (ApABG) was determined at intervals throughout the study. The labeling of pABG and ApABG reflected that of tissue folate pools from which the catabolites originate. After the intake of labeled folic acid was terminated on d 41, labeling of urinary folate exhibited a biphasic exponential decline with distinct fast and slow components. In contrast, during d 42--84, the enrichment of urinary pABG and ApABG exhibited primarily monophasic exponential decline, and plasma folate underwent little decline of labeling during this period. Pregnant women and controls did not differ in estimates of body folate pool size and most aspects of the excretion of labeled urinary folate and catabolites, rates of decline of excretion, and areas under the curves for folate and catabolite excretion. Pregnant women, however, tended to have a slower rate of decline of pABG than ApABG and higher enrichment at d 42 of ApABG and pABG. These data support and extend our previous findings indicating that pregnancy (gestational wk 14--26) causes subtle changes in folate metabolism but does not elicit substantial increases in the rate or extent of folate turnover at these moderately high folate intakes. [ABSTRACT FROM AUTHOR]

Published

2001

16. Folate catabolism in pregnant and nonpregnant women with controlled folate intakes.

Author

Caudill, Marie A., Gregory, Jesse F., Hutson, Alan D., Bailey, Lynn B., Caudill, M A, Gregory, J F, Hutson, A D, and Bailey, L B

Subjects

*FOLIC acid, *WOMEN, *METABOLISM, *FOLIC acid metabolism, *CLINICAL trials, *COMPARATIVE studies, *DIET, *DOSE-effect relationship in pharmacology, *GLUTAMIC acid, *RESEARCH methodology, *MEDICAL cooperation, *SECOND trimester of pregnancy, *REFERENCE values, *RESEARCH, *RESEARCH funding, *EVALUATION research

Abstract

Measurement of the urinary folate catabolites, para-aminobenzoylglutamate (pABG) and the more predominant acetylated form, acetamidobenzoylglutamate (apABG), has been used to assess folate requirements in both pregnant and nonpregnant women. Folate catabolite excretion has been reported to be significantly higher in pregnant women (second trimester) compared with nonpregnant controls. The primary goals of this study were to determine if pregnant women in a controlled metabolic study excreted higher quantities of urinary folate catabolites than nonpregnant controls and if catabolite excretion was influenced by folate intake. We evaluated the effect of gestation and folate intake on the urinary excretion of apABG and pABG in pregnant women (n = 12; wk 14-26 gestation) and nonpregnant controls (n = 12) assigned to consume folate levels approximating the current (400 microg/d) and previous (800 microg/d) RDA. Subjects were fed a controlled diet containing 120 microg folate/d and either 330 or 730 microg synthetic folic acid/d. In contrast to previously reported data, no differences in mean folate catabolite excretion were detected between pregnant and nonpregnant subjects. Catabolite excretion (pABG + apABG) decreased significantly relative to initial values in pregnant women consuming 450 microg folate/d (-40 +/- 20%; mean +/- SD) and final mean excretion was significantly lower in the pregnant women consuming 450 microg folate/d (86 +/- 32 nmol/d) compared with 850 microg folate/d (148 +/- 20 nmol/d). Data from this study indicate that second trimester pregnant women do not excrete more folate catabolites than nonpregnant controls and that consumption of 450 vs. 850 microg folate/d results in a significant reduction in the quantity of folate catabolites excreted. [ABSTRACT FROM AUTHOR]

Published

1998

17. Folate status response to controlled folate intake in pregnant women.

Author

Caudill, Marie A., Cruz, Amelia C., Gregory III, Jesse F., Hutson, Alan D., Bailey, Lynn B., Caudill, M A, Cruz, A C, Gregory, J F 3rd, Hutson, A D, and Bailey, L B

Subjects

*NUTRITIONAL requirements, *FOLIC acid, *HEALTH, *FOLIC acid metabolism, *CLINICAL trials, *COMPARATIVE studies, *DIET, *RESEARCH methodology, *MEDICAL cooperation, *NUTRITION policy, *SECOND trimester of pregnancy, *REFERENCE values, *RESEARCH, *RESEARCH funding, *EVALUATION research, *RANDOMIZED controlled trials, *NUTRITIONAL status

Abstract

A metabolic study (84-d) was conducted to investigate the folate status response of pregnant subjects (n = 12) during their second trimester and nonpregnant controls (n = 12) to folate intakes approximating the current (400 microg/d) and former (800 microg/d) recommended dietary allowance (RDA). The overall goal of the study was to provide metabolic data to assist in the interpretation of the current RDA for folate. Subjects were fed a controlled diet containing 120 +/- 15 microg/d (mean +/- SD) folate and either 330 or 730 microg/d synthetic folic acid. Outcome variables between and within supplementation groups were compared at steady state. Serum folate was higher (P 0.05) were detected in serum folate between pregnant and nonpregnant women within the same supplementation group. Urinary 5-methyl-tetrahydrofolate excretion was greater (P 0.05) in 5-methyl-tetrahydrofolate excretion were detected between pregnant and nonpregnant women within supplementation groups. Differences (P

Published

1997