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1. Betaine for the prevention and treatment of insulin resistance and fatty liver in a high-fat dietary model of insulin resistance in C57BL mice.

Author

Kathirvel, Elango, Morgan, Kengathevy, Malysheva, Olga, Caudill, Marie, and Morgan, Timothy

Subjects
betaine, high fat diet, insulin receptor substrate, insulin resistance, non-alcoholic fatty liver disease
Abstract

AIM: The aim was to investigate mechanisms by which betaine improves hepatic insulin signaling in a dietary mouse model of insulin resistance and fatty liver. METHODS: C57BL 6J mice were fed a standard diet (SF), a standard diet with betaine (SFB), a nutritionally complete high fat (HF) diet, or a high fat diet with betaine (HFB) for 14 weeks. In a separate experiment, mice were fed high fat diet for 18 weeks, half of whom received betaine for the final 4 weeks. Activation of insulin signaling in the liver was assessed by western blot. Insulin signaling was also assessed in insulin resistant primary human hepatocytes treated with betaine. RESULTS: As compared with SF, mice receiving HF diet were heavier, had more hepatic steatosis, and abnormal glucose tolerance test (GTT). Betaine content in liver and serum was 50% lower in HF than in SF; betaine supplementation restored serum and liver betaine content. Betaine treatment of HF reduced whole body insulin resistance as measured by GTT. Betaine treatment of HF increased tyrosine phosphorylation of insulin receptor substrate-1 and phosphorylation (activation) of Akt, and increased hepatic glycogen content. In vitro, betaine reversed insulin resistance in primary human hepatocytes by increasing insulin-stimulated tyrosine phosphorylation of IRS1 and of Akt. CONCLUSION: Betaine supplementation reduced whole body insulin resistance and increased activation of insulin signaling pathways in the liver in a mouse model of insulin resistance and fatty liver created by feeding a nutritionally complete high fat diet for 14 weeks. Betaine also reduced liver injury as assessed by ALT and by liver histology. In vitro, betaine reversed insulin resistance by increasing insulin-stimulated tyrosine phosphorylation of IRS1 and activation of downstream proteins in the insulin signaling cascade in insulin resistant primary human hepatocytes.

Published
2024

2. Prenatal choline supplementation improves biomarkers of maternal docosahexaenoic acid (DHA) status among pregnant participants consuming supplemental DHA: a randomized controlled trial

Author

Klatt, Kevin C, McDougall, Melissa Q, Malysheva, Olga V, Taesuwan, Siraphat, Loinard-González, Aura P, Nevins, Julie EH, Beckman, Kara, Bhawal, Ruchika, Anderson, Elizabeth, Zhang, Sheng, Bender, Erica, Jackson, Kristina H, King, D Janette, Dyer, Roger A, Devapatla, Srisatish, Vidavalur, Ramesh, Brenna, J Thomas, and Caudill, Marie A

Subjects
Nutrition, Clinical Trials and Supportive Activities, Perinatal Period - Conditions Originating in Perinatal Period, Pediatric, Complementary and Integrative Health, Clinical Research, Reproductive health and childbirth, Good Health and Well Being, Biomarkers, Choline, Dietary Supplements, Docosahexaenoic Acids, Female, Humans, Infant, Newborn, Phosphatidylcholines, Pregnancy, Vitamins, prenatal choline supplementation, pregnancy, docosahexaenoic acid, PEMT pathway, omega-3 polyunsaturated fatty acids, stable isotope, Engineering, Medical and Health Sciences, Nutrition & Dietetics
Abstract

BackgroundDietary methyl donors (e.g., choline) support the activity of the phosphatidylethanolamine N-methyltransferase (PEMT) pathway, which generates phosphatidylcholine (PC) molecules enriched in DHA that are exported from the liver and made available to extrahepatic tissues.ObjectivesThis study investigated the effect of prenatal choline supplementation on biomarkers of DHA status among pregnant participants consuming supplemental DHA.MethodsPregnant participants (n = 30) were randomly assigned to receive supplemental choline intakes of 550 mg/d [500 mg/d d0-choline + 50 mg/d deuterium-labeled choline (d9-choline); intervention] or 25 mg/d (25 mg/d d9-choline; control) from gestational week (GW) 12-16 until delivery. All participants received a daily 200-mg DHA supplement and consumed self-selected diets. Fasting blood samples were obtained at baseline, GW 20-24, and GW 28-32; maternal/cord blood was obtained at delivery. Mixed-effects linear models were used to assess the impact of prenatal choline supplementation on maternal and newborn DHA status.ResultsCholine supplementation (550 vs. 25 mg/d) did not achieve a statistically significant intervention × time interaction for RBC PC-DHA (P = 0.11); a significant interaction was observed for plasma PC-DHA and RBC total DHA, with choline supplementation yielding higher levels (+32-38% and +8-11%, respectively) at GW 28-32 (P

Published
2022

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

Author

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

Subjects
MTHFR, folate, one-carbon metabolism, postmenopausal women, single-nucleotide variants, Aged, Biomarkers, Carbon, Female, Folic Acid, Genotype, Histocompatibility Antigens, Histone-Lysine N-Methyltransferase, Homocysteine, Humans, Methylenetetrahydrofolate Reductase (NADPH2), Middle Aged, Postmenopause, Womens 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 Womens 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.

Published
2022

4. Genetic Variants in One-Carbon Metabolism and Their Effects on DHA Biomarkers in Pregnant Women: A Post-Hoc Analysis

Author

Loinard-González, Aura Alex P, Malysheva, Olga V, Klatt, Kevin C, and Caudill, Marie A

Subjects
Reproductive Medicine, Biomedical and Clinical Sciences, Pediatric, Genetics, Reproductive health and childbirth, Biomarkers, Carbon, Choline, Docosahexaenoic Acids, Fatty Acids, Female, Humans, Infant, Newborn, Phosphatidylcholines, Phosphatidylethanolamine N-Methyltransferase, Pregnancy, Pregnant Women, choline, DHA, pregnancy, genetic variants, one-carbon metabolism, PEMT, Food Sciences, Nutrition and Dietetics, Clinical sciences, Nutrition and dietetics, Public health
Abstract

The delivery of docosahexanoic acid (DHA) to the fetus is dependent on maternal one-carbon metabolism, as the latter supports the hepatic synthesis and export of a DHA-enriched phosphatidylcholine molecule via the phosphatidylethanolamine N-methyltransferase (PEMT) pathway. The following is a post-hoc analysis of a choline intervention study that sought to investigate whether common variants in one-carbon metabolizing genes associate with maternal and/or fetal blood biomarkers of DHA status. Pregnant women entering their second trimester were randomized to consume, until delivery, either 25 (n = 15) or 550 (n = 15) mg choline/d, and the effects of genetic variants in the PEMT, BHMT, MTHFD1, and MTHFR genes on DHA status were examined. Variant (vs. non-variant) maternal PEMT rs4646343 genotypes tended to have lower maternal RBC DHA (% total fatty acids) throughout gestation (6.9% vs. 7.4%; main effect, p = 0.08) and lower cord RBC DHA at delivery (7.6% vs. 8.4%; main effect, p = 0.09). Conversely, variant (vs. non-variant) maternal MTHFD1 rs2235226 genotypes exhibited higher cord RBC DHA (8.3% vs. 7.3%; main effect, p = 0.0003) and higher cord plasma DHA (55 vs. 41 μg/mL; main effect, p = 0.05). Genotype tended to interact with maternal choline intake (p < 0.1) to influence newborn DHA status for PEMT rs4646343 and PEMT rs7946. These data support the need to consider variants in one-carbon metabolic genes in studies assessing DHA status and requirements during pregnancy.

Published
2022

5. Choline metabolome response to prenatal choline supplementation across pregnancy: A randomized controlled trial.

Author

Taesuwan, Siraphat, McDougall, Melissa, Malysheva, Olga, Bender, Erica, Nevins, Julie, Devapatla, Srisatish, Vidavalur, Ramesh, Caudill, Marie, and Klatt, Kevin

Subjects
PEMT pathway, choline metabolome, phosphatidylcholine, pregnancy, prenatal choline supplementation, Adaptation, Physiological, Adult, Case-Control Studies, Choline, Dietary Supplements, Female, Fetal Blood, Fetus, Humans, Metabolome, Placenta, Pregnancy, Young Adult
Abstract

Pregnancy places a unique stress upon choline metabolism, requiring adaptations to support both maternal and fetal requirements. The impact of pregnancy and prenatal choline supplementation on choline and its metabolome in free-living, healthy adults is relatively uncharacterized. This study investigated the effect of prenatal choline supplementation on maternal and fetal biomarkers of choline metabolism among free-living pregnant persons consuming self-selected diets. Participants were randomized to supplemental choline (as choline chloride) intakes of 550 mg/d (500 mg/d d0-choline + 50 mg/d methyl-d9-choline; intervention) or 25 mg/d d9-choline (control) from gestational week (GW) 12-16 until Delivery. Fasting blood and 24-h urine samples were obtained at study Visit 1 (GW 12-16), Visit 2 (GW 20-24), and Visit 3 (GW 28-32). At Delivery, maternal and cord blood and placental tissue samples were collected. Participants randomized to 550 (vs. 25) mg supplemental choline/d achieved higher (p

Published
2021

6. Expression Changes in Epigenetic Gene Pathways Associated With One‐Carbon Nutritional Metabolites in Maternal Blood From Pregnancies Resulting in Autism and Non‐Typical Neurodevelopment

Author

Zhu, Yihui, Mordaunt, Charles E, Durbin‐Johnson, Blythe P, Caudill, Marie A, Malysheva, Olga V, Miller, Joshua W, Green, Ralph, James, S Jill, Melnyk, Stepan B, Fallin, M Daniele, Hertz‐Picciotto, Irva, Schmidt, Rebecca J, and LaSalle, Janine M

Subjects
Biomedical and Clinical Sciences, Neurosciences, Biotechnology, Intellectual and Developmental Disabilities (IDD), Autism, Genetics, Brain Disorders, Human Genome, Pediatric, Prevention, Nutrition, Mental Health, Clinical Research, 2.1 Biological and endogenous factors, Aetiology, 2.3 Psychological, social and economic factors, Reproductive health and childbirth, Mental health, Autism Spectrum Disorder, Autistic Disorder, Carbon, Child, Child, Preschool, Epigenesis, Genetic, Female, Humans, Infant, Pregnancy, Prospective Studies, autism spectrum disorder, neurodevelopment, maternal blood, one&#8208, carbon metabolites, nutrition, transcriptome, prenatal, one-carbon metabolites, Clinical Sciences, Psychology, Developmental & Child Psychology, Applied and developmental psychology, Clinical and health psychology
Abstract

The prenatal period is a critical window for the development of autism spectrum disorder (ASD). The relationship between prenatal nutrients and gestational gene expression in mothers of children later diagnosed with ASD or non-typical development (Non-TD) is poorly understood. Maternal blood collected prospectively during pregnancy provides insights into the effects of nutrition, particularly one-carbon metabolites, on gene pathways and neurodevelopment. Genome-wide transcriptomes were measured with microarrays in 300 maternal blood samples in Markers of Autism Risk in Babies-Learning Early Signs. Sixteen different one-carbon metabolites, including folic acid, betaine, 5'-methyltretrahydrofolate (5-MeTHF), and dimethylglycine (DMG) were measured. Differential expression analysis and weighted gene correlation network analysis (WGCNA) were used to compare gene expression between children later diagnosed as typical development (TD), Non-TD and ASD, and to one-carbon metabolites. Using differential gene expression analysis, six transcripts (TGR-AS1, SQSTM1, HLA-C, and RFESD) were associated with child outcomes (ASD, Non-TD, and TD) with genome-wide significance. Genes nominally differentially expressed between ASD and TD significantly overlapped with seven high confidence ASD genes. WGCNA identified co-expressed gene modules significantly correlated with 5-MeTHF, folic acid, DMG, and betaine. A module enriched in DNA methylation functions showed a suggestive protective association with folic acid/5-MeTHF concentrations and ASD risk. Maternal plasma betaine and DMG concentrations were associated with a block of co-expressed genes enriched for adaptive immune, histone modification, and RNA processing functions. These results suggest that the prenatal maternal blood transcriptome is a sensitive indicator of gestational one-carbon metabolite status and changes relevant to children's later neurodevelopmental outcomes. LAY SUMMARY: Pregnancy is a time when maternal nutrition could interact with genetic risk for autism spectrum disorder. Blood samples collected during pregnancy from mothers who had a prior child with autism were examined for gene expression and nutrient metabolites, then compared to the diagnosis of the child at age three. Expression differences in gene pathways related to the immune system and gene regulation were observed for pregnancies of children with autism and non-typical neurodevelopment and were associated with maternal nutrients.

Published
2021

7. Reproductive state and choline intake influence enrichment of plasma lysophosphatidylcholine-DHA: a post hoc analysis of a controlled feeding trial.

Author

McDougall, Melissa, Malysheva, Olga, Brenna, J, Roberson, Mark, Caudill, Marie, and Klatt, Kevin

Subjects
DHA, Dietary choline, Lactation, Lysophosphatidylcholine, Pregnancy, Adult, Choline, Deuterium, Dietary Supplements, Docosahexaenoic Acids, Female, Genotype, Humans, Lactation, Phosphatidylcholines, Phosphatidylethanolamine N-Methyltransferase, Pregnancy, Pregnancy Trimester, Third, Reproduction
Abstract

The major facilitator superfamily domain 2a protein was identified recently as a lysophosphatidylcholine (LPC) symporter with high affinity for LPC species enriched with DHA (LPC-DHA). To test the hypothesis that reproductive state and choline intake influence plasma LPC-DHA, we performed a post hoc analysis of samples available through 10 weeks of a previously conducted feeding study, which provided two doses of choline (480 and 930 mg/d) to non-pregnant (n 21), third-trimester pregnant (n 26), and lactating (n 24) women; all participants consumed 200 mg of supplemental DHA and 22 % of their daily choline intake as 2H-labelled choline. The effects of reproductive state and choline intake on total LPC-DHA (expressed as a percentage of LPC) and plasma enrichments of labelled LPC and LPC-DHA were assessed using mixed and generalised linear models. Reproductive state interacted with time (P = 0·001) to influence total LPC-DHA, which significantly increased by week 10 in non-pregnant women, but not in pregnant or lactating women. Contrary to total LPC-DHA, patterns of labelled LPC-DHA enrichments were discordant between pregnant and lactating women (P

Published
2019

8. Choline: The Underconsumed and Underappreciated Essential Nutrient

Author

Wallace, Taylor C, Blusztajn, Jan Krzysztof, Caudill, Marie A, Klatt, Kevin C, Natker, Elana, Zeisel, Steven H, and Zelman, Kathleen M

Subjects
Biomedical and Clinical Sciences, Nutrition and Dietetics, Pediatric, Nutrition, Prevention, 3.3 Nutrition and chemoprevention, Prevention of disease and conditions, and promotion of well-being, Cardiovascular, Metabolic and endocrine, Reproductive health and childbirth, Oral and gastrointestinal, Nutrition & Dietetics, Nutrition and dietetics
Abstract

Choline has been recognized as an essential nutrient by the Food and Nutrition Board of the National Academies of Medicine since 1998. Its metabolites have structural, metabolic, and regulatory roles within the body. Humans can endogenously produce small amounts of choline via the hepatic phosphatidylethanolamine N-methyltransferase pathway. However, the nutrient must be consumed exogenously to prevent signs of deficiency. The Adequate Intake (AI) for choline was calculated at a time when dietary intakes across the population were unknown for the nutrient. Unlike the traditional National Academy of Medicine approach of calculating an AI based on observed or experimentally determined approximations or estimates of intake by a group (or groups) of healthy individuals, calculation of the AI for choline was informed in part by a depletion-repletion study in adult men who, upon becoming deficient, developed signs of liver damage. The AI for other gender and life-stage groups was calculated based on standard reference weights, except for infants 0 to 6 months, whose AI reflects the observed mean intake from consuming human breast milk. Recent analyses indicate that large portions of the population (ie, approximately 90% of Americans), including most pregnant and lactating women, are well below the AI for choline. Moreover, the food patterns recommended by the 2015-2020 Dietary Guidelines for Americans are currently insufficient to meet the AI for choline in most age-sex groups. An individual's requirement for choline is dependent on common genetic variants in genes required for choline, folate, and 1-carbon metabolism, potentially increasing more than one-third of the population's susceptibly to organ dysfunction. The American Medical Association and American Academy of Pediatrics have both recently reaffirmed the importance of choline during pregnancy and lactation. New and emerging evidence suggests that maternal choline intake during pregnancy, and possibly lactation, has lasting beneficial neurocognitive effects on the offspring. Because choline is found predominantly in animal-derived foods, vegetarians and vegans may have a greater risk for inadequacy. With the 2020-2025 Dietary Guidelines for Americans recommending expansion of dietary information for pregnant women, and the inclusion of recommendations for infants and toddlers 0 to 2 years, better communication of the role that choline plays, particularly in the area of neurocognitive development, is critical. This narrative review summarizes the peer-reviewed literature and discussions from the 2018 Choline Science Summit, held in Washington, DC, in February 2018.

Published
2018

9. Choline Supplementation Prevents a Hallmark Disturbance of Kwashiorkor in Weanling Mice Fed a Maize Vegetable Diet: Hepatic Steatosis of Undernutrition

Author

May, Thaddaeus, Klatt, Kevin C, Smith, Jacob, Castro, Eumenia, Manary, Mark, Caudill, Marie A, Jahoor, Farook, and Fiorotto, Marta L

Subjects
Biomedical and Clinical Sciences, Nutrition and Dietetics, Prevention, Liver Disease, Digestive Diseases, Nutrition, Aetiology, 2.1 Biological and endogenous factors, Metabolic and endocrine, Zero Hunger, Animal Feed, Animal Nutritional Physiological Phenomena, Animals, Choline, Dietary Supplements, Disease Models, Animal, Eating, Energy Metabolism, Fatty Liver, Female, Gene Expression Regulation, Kwashiorkor, Lipid Metabolism, Liver, Male, Mice, Nutritional Status, Time Factors, Transcription, Genetic, Weight Gain, Zea mays, kwashiorkor, malnutrition, hepatic steatosis, fatty liver disease, choline, betaine, methionine, trimethylamine N-oxide, one carbon metabolism, methylation, Food Sciences, Clinical sciences, Nutrition and dietetics, Public health
Abstract

Hepatic steatosis is a hallmark feature of kwashiorkor malnutrition. However, the pathogenesis of hepatic steatosis in kwashiorkor is uncertain. Our objective was to develop a mouse model of childhood undernutrition in order to test the hypothesis that feeding a maize vegetable diet (MVD), like that consumed by children at risk for kwashiorkor, will cause hepatic steatosis which is prevented by supplementation with choline. A MVD was developed with locally sourced organic ingredients, and fed to weanling mice (n = 9) for 6 or 13 days. An additional group of mice (n = 4) were fed a choline supplemented MVD. Weight, body composition, and liver changes were compared to control mice (n = 10) at the beginning and end of the study. The MVD resulted in reduced weight gain and hepatic steatosis. Choline supplementation prevented hepatic steatosis and was associated with increased hepatic concentrations of the methyl donor betaine. Our findings show that (1) feeding a MVD to weanling mice rapidly induces hepatic steatosis, which is a hallmark disturbance of kwashiorkor; and that (2) hepatic steatosis associated with feeding a MVD is prevented by choline supplementation. These findings support the concept that insufficient choline intake may contribute to the pathogenesis of hepatic steatosis in kwashiorkor.

Published
2018

11. Common Genetic Variants Alter Metabolism and Influence Dietary Choline Requirements

Author

Ganz, Ariel B, Klatt, Kevin C, and Caudill, Marie A

Subjects
Biomedical and Clinical Sciences, Nutrition and Dietetics, Clinical Sciences, Genetics, Prevention, Nutrition, Metabolic and endocrine, Good Health and Well Being, Animals, Choline, Choline Deficiency, DNA Methylation, Epigenesis, Genetic, Female, Genetic Predisposition to Disease, Genetic Variation, Humans, Male, Nutrigenomics, Phenotype, Polymorphism, Single Nucleotide, Recommended Dietary Allowances, Reproduction, Sex Factors, choline, genetics, nutrigenetics, dietary requirements, Food Sciences, Clinical sciences, Nutrition and dietetics, Public health
Abstract

Nutrient needs, including those of the essential nutrient choline, are a population wide distribution. Adequate Intake (AI) recommendations for dietary choline (put forth by the National Academies of Medicine to aid individuals and groups in dietary assessment and planning) are grouped to account for the recognized unique needs associated with age, biological sex, and reproductive status (i.e., pregnancy or lactation). Established and emerging evidence supports the notion that common genetic variants are additional factors that substantially influence nutrient requirements. This review summarizes the genetic factors that influence choline requirements and metabolism in conditions of nutrient deprivation, as well as conditions of nutrient adequacy, across biological sexes and reproductive states. Overall, consistent and strong associative evidence demonstrates that common genetic variants in choline and folate pathway enzymes impact the metabolic handling of choline and the risk of nutrient inadequacy across varied dietary contexts. The studies characterized in this review also highlight the substantial promise of incorporating common genetic variants into choline intake recommendations to more precisely target the unique nutrient needs of these subgroups within the broader population. Additional studies are warranted to facilitate the translation of this evidence to nutrigenetics-based dietary approaches.

Published
2017

12. Maternal Choline Supplementation Alters Fetal Growth Patterns in a Mouse Model of Placental Insufficiency

Author

King, Julia H, Kwan, Sze Ting, Yan, Jian, Klatt, Kevin C, Jiang, Xinyin, Roberson, Mark S, and Caudill, Marie A

Subjects
Reproductive Medicine, Biomedical and Clinical Sciences, Perinatal Period - Conditions Originating in Perinatal Period, Pediatric, Nutrition, 1.1 Normal biological development and functioning, Underpinning research, Reproductive health and childbirth, Animals, Choline, Dietary Supplements, Disease Models, Animal, Female, Fetal Development, Genotype, Homeodomain Proteins, Male, Mice, Mice, Knockout, Placenta, Placental Insufficiency, Placentation, Pregnancy, Pregnancy Outcome, Transcription Factors, betaine, choline, fetal growth, placenta, pregnancy, IGF, Food Sciences, Nutrition and Dietetics, Clinical sciences, Nutrition and dietetics, Public health
Abstract

Impairments in placental development can adversely affect pregnancy outcomes. The bioactive nutrient choline may mitigate some of these impairments, as suggested by data in humans, animals, and human trophoblasts. Herein, we investigated the effects of maternal choline supplementation (MCS) on parameters of fetal growth in a Dlx3+/- (distal-less homeobox 3) mouse model of placental insufficiency. Dlx3+/- female mice were assigned to 1X (control), 2X, or 4X choline intake levels during gestation. Dams were sacrificed at embryonic days E10.5, 12.5, 15.5, and 18.5. At E10.5, placental weight, embryo weight, and placental efficiency were higher in 4X versus 1X choline. Higher concentrations of hepatic and placental betaine were detected in 4X versus 1X choline, and placental betaine was positively associated with embryo weight. Placental mRNA expression of Igf1 was downregulated by 4X (versus 1X) choline at E10.5. No differences in fetal growth parameters were detected at E12.5 and 15.5, whereas a small but significant reduction in fetal weight was detected at E18.5 in 4X versus 1X choline. MCS improved fetal growth during early pregnancy in the Dlx3+/- mice with the compensatory downregulation of Igf1 to slow growth as gestation progressed. Placental betaine may be responsible for the growth-promoting effects of choline.

Published
2017

14. 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 AA, 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

Published
2020
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15. 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, Berger, Croxford, Ruth, Lamers, Yvonne, Caudill, Marie A, Choi, Sang-Woon, O'Connor, Deborah L, and Kim, Young-In

Published
2020
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16. Maternal obesity disrupts the methionine cycle in baboon pregnancy

Author

Nathanielsz, Peter W, Yan, Jian, Green, Ralph, Nijland, Mark, Miller, Joshua W, Wu, Guoyao, McDonald, Thomas J, and Caudill, Marie A

Subjects
Nutrition, Prevention, Obesity, Pediatric, Complementary and Integrative Health, Reproductive health and childbirth, Metabolic and endocrine, Cardiovascular, Good Health and Well Being, Baboon, folate, maternal obesity, methionine cycle, vitamin B-12, one-carbon metabolism, vitamin B‐12, one‐carbon metabolism, Physiology, Clinical Sciences, Medical Physiology
Abstract

Maternal intake of dietary methyl-micronutrients (e.g. folate, choline, betaine and vitamin B-12) during pregnancy is essential for normal maternal and fetal methionine metabolism, and is critical for important metabolic processes including those involved in developmental programming. Maternal obesity and nutrient excess during pregnancy influence developmental programming potentially predisposing adult offspring to a variety of chronic health problems. In the present study, we hypothesized that maternal obesity would dysregulate the maternal and fetal methionine cycle. To test this hypothesis, we developed a nulliparous baboon obesity model fed a high fat, high energy diet (HF-HED) prior to and during gestation, and examined methionine cycle biomarkers (e.g., circulating concentrations of homocysteine, methionine, choline, betaine, key amino acids, folate, and vitamin B-12). Animals were group housed allowing full physical activity and social interaction. Maternal prepregnancy percent body fat was 5% in controls and 19% in HF-HED mothers, while fetal weight was 16% lower in offspring of HF-HED mothers at term. Maternal and fetal homocysteine were higher, while maternal and fetal vitamin B-12 and betaine were lower in the HF-HED group. Elevations in circulating maternal folate were evident in the HF-HED group indicating impaired folate metabolism (methyl-trap) as a consequence of maternal vitamin B-12 depletion. Finally, fetal methionine, glycine, serine, and taurine were lower in the HF-HED fetuses. These data show that maternal obesity disturbs the methionine cycle in primate pregnancy, providing a mechanism for the epigenetic changes observed among obese pregnant women and suggesting diagnostic and therapeutic opportunities in human pregnancies complicated by obesity.

Published
2015

17. 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 AA, 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
Cancer, Digestive Diseases, Colo-Rectal Cancer, Nutrition, Genetics, Prevention, Aetiology, 2.1 Biological and endogenous factors, Aged, Biomarkers, Case-Control Studies, Colorectal Neoplasms, DNA-Binding Proteins, Female, Ferredoxin-NADP Reductase, Folic Acid, Genetic Predisposition to Disease, Histone-Lysine N-Methyltransferase, Humans, Logistic Models, Methylenetetrahydrofolate Dehydrogenase (NADP), Middle Aged, Minor Histocompatibility Antigens, Nuclear Proteins, Polymorphism, Single Nucleotide, Postmenopause, Risk Assessment, Transcription Factors, Vitamin B Complex, biomarker, colorectal cancer, gene-nutrient interaction, one-carbon metabolism, postmenopausal women, Oncology and Carcinogenesis, Public Health and Health Services, Oncology & Carcinogenesis
Abstract

BackgroundInvestigations 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.MethodsTwo 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.ResultsStatistically 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

Published
2015

22. Plasma Choline Metabolites and Colorectal Cancer Risk in the Women's Health Initiative Observational Study

Author

Bae, Sajin, Ulrich, Cornelia M, Neuhouser, Marian L, Malysheva, Olga, Bailey, Lynn B, Xiao, Liren, Brown, Elissa C, Cushing-Haugen, Kara L, Zheng, Yingye, Cheng, Ting-Yuan David, Miller, Joshua W, Green, Ralph, Lane, Dorothy S, Beresford, Shirley AA, and Caudill, Marie A

Subjects
Clinical Research, Nutrition, Colo-Rectal Cancer, Cancer, Digestive Diseases, Prevention, Aged, Betaine, Choline, Colorectal Neoplasms, Female, Humans, Methylamines, Middle Aged, Risk Factors, Women's Health, Oncology and Carcinogenesis, Oncology & Carcinogenesis
Abstract

Few studies have examined associations between plasma choline metabolites and risk of colorectal cancer. Therefore, we investigated associations between plasma biomarkers of choline metabolism [choline, betaine, dimethylglycine, and trimethylamine N-oxide (TMAO)] and colorectal cancer risk among postmenopausal women in a case-control study nested within the Women's Health Initiative Observational Study. We selected 835 matched case-control pairs, and cases were further stratified by tumor site (proximal, distal, or rectal) and stage (local/regional or metastatic). Colorectal cancer was assessed by self-report and confirmed by medical records over the mean of 5.2 years of follow-up. Baseline plasma choline metabolites were measured by LC/MS-MS. In multivariable-adjusted conditional logistic regression models, plasma choline tended to be positively associated with rectal cancer risk [OR (95% confidence interval, CI)(highest vs. lowest quartile) = 2.44 (0.93-6.40); P trend = 0.08], whereas plasma betaine was inversely associated with colorectal cancer overall [0.68 (0.47-0.99); P trend = 0.01] and with local/regional tumors [0.64 (0.42-0.99); P trend = 0.009]. Notably, the plasma betaine:choline ratio was inversely associated with colorectal cancer overall [0.56 (0.39-0.82); P trend = 0.004] as well as with proximal [0.66 (0.41-1.06); P trend = 0.049], rectal [0.27 (0.10-0.78); P trend = 0.02], and local/regional [0.50 (0.33-0.76); P trend = 0.001] tumors. Finally, plasma TMAO, an oxidative derivative of choline produced by intestinal bacteria, was positively associated with rectal cancer [3.38 (1.25-9.16); P trend = 0.02] and with overall colorectal cancer risk among women with lower (vs. higher) plasma vitamin B12 levels (P interaction = 0.003). Collectively, these data suggest that alterations in choline metabolism, which may arise early in disease development, may be associated with higher risk of colorectal cancer. The positive association between plasma TMAO and colorectal cancer risk is consistent with an involvement of the gut microbiome in colorectal cancer pathogenesis.

Published
2014

23. Dietary vitamin B12 deficiency impairs motor function and changes neuronal survival and choline metabolism after ischemic stroke in middle-aged male and female mice.

Author

Yahn, Gyllian B., Wasek, Brandi, Bottiglieri, Teodoro, Malysheva, Olga, Caudill, Marie A., and Jadavji, Nafisa M.

Subjects
VITAMIN B12 deficiency, ISCHEMIC stroke, DISEASE risk factors, METABOLISM, SENSORIMOTOR cortex
Abstract

Nutrition is a modifiable risk factor for ischemic stroke. As people age their ability to absorb some nutrients decreases, a primary example is vitamin B12. Older individuals with a vitamin B12 deficiency are at a higher risk for ischemic stroke and have worse stroke outcome. However, the mechanisms through which these occur remain unknown. The aim of the study was to investigate the role of vitamin B12 deficiency in ischemic stroke outcome and mechanistic changes in a mouse model. Ten-month-old male and female mice were put on control or vitamin B12 deficient diets for 4 weeks prior to and after ischemic stroke to the sensorimotor cortex. Motor function was measured, and tissues were collected to assess potential mechanisms. All deficient mice had increased levels of total homocysteine in plasma and liver tissues. After ischemic stroke, deficient mice had impaired motor function compared to control mice. There was no difference between groups in ischemic damage volume. However, within the ischemic damage region, there was an increase in total apoptosis of male deficient mice compared to controls. Furthermore, there was an increase in neuronal survival in ischemic brain tissue of the vitamin B12 deficient mice compared to controls. Additionally, there were changes in choline metabolites in ischemic brain tissue because of a vitamin B12 deficiency. The data presented in this study confirms that a vitamin B12 deficiency worsens stroke outcome in male and female mice. The mechanisms driving this change may be a result of neuronal survival and compensation in choline metabolism within the damaged brain tissue. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Folate

Author

West, Allyson A., primary, Caudill, Marie A., additional, and Bailey, Lynn B., additional

Published
2020
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25. Contributors to Volume 1

Author

Aggett, Peter J., primary, Ahnen, Rylee T., additional, Aydemir, Tolunay Beker, additional, Bailey, Lynn B., additional, Bettendorff, Lucien, additional, Blaner, William S., additional, Borum, Peggy R., additional, Bruno, Richard S., additional, Calder, Philip C., additional, Caudill, Marie A., additional, Cheuvront, Samuel N., additional, Coates, Paul M., additional, Collins, James F., additional, Costello, Rebecca B., additional, da Silva, Vanessa R., additional, Diamond, Alan Mark, additional, Ferland, Guylaine, additional, Fleet, James C., additional, Fukagawa, Naomi K., additional, Gregory, Jesse F., additional, Gutiérrez, Orlando M., additional, Haggans, Carol J., additional, Hong, Lenny K., additional, Johnson, Ian T., additional, Johnston, Carol S., additional, Jones, Peter J.H., additional, Kenefick, Robert W., additional, Kirkland, James B., additional, Leone, Vanessa A., additional, Lichtenstein, Alice H., additional, Mc Auley, Mark Tomás, additional, McCormick, Donald B., additional, Merrill, Alfred H., additional, Miller, Joshua W., additional, Montain, Scott J., additional, Mottet, Rachel, additional, Nielsen, Forrest H., additional, Omolo, Morrine, additional, Penberthy, William Todd, additional, Pierre, Joseph F., additional, Preuss, Harry G., additional, Rosanoff, A., additional, Rucker, Robert B., additional, Ryu, Moon-Suhn, additional, Sadri, Mahrou, additional, Sawka, Michael N., additional, Shapses, Sue A., additional, Slavin, Joanne, additional, Stabler, Sally P., additional, Thomas, Paul R., additional, Traber, Maret G., additional, Trujillo-Gonzalez, Isis, additional, Vincent, John B., additional, von Lintig, Johannes, additional, Weaver, Connie M., additional, West, Allyson A., additional, Westerterp, Klaas R., additional, Williamson, Gary, additional, Yaqoob, Parveen, additional, Yu, Yong-Ming, additional, Zeisel, Steven H., additional, Zempleni, Janos, additional, and Zimmermann, Michael B., additional

Published
2020
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30. P27-015-23 Ischemic Outcome in Young and Adult Male and Female Offspring After Maternal Deficiencies in One-Carbon Metabolites During Pregnancy and Lactation

Author

Jadavji, Nafisa, primary, Hurley, Lauren, additional, Clementson, McCoy, additional, Bennett, Calli, additional, Coonrod, Sarah, additional, Jauhal, Jesse, additional, Marella, Purvaja, additional, Pascual, Agnes, additional, Pull, Kasey, additional, Malysheva, Olga, additional, WasekPatterson, Brandi, additional, Bottiglieri, Teodoro, additional, and Caudill, Marie, additional

Published
2023
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31. Dietary vitamin B12 deficiency impairs motor function and changes neuronal survival and choline metabolism after ischemic stroke in middle-aged male and female mice

Author

MBS, Gyllian B. Yahn, Wasek, Brandi, Bottiglieri, Teodoro, Malysheva, Olga, Caudill, Marie A., and Jadavji, Nafisa M.

Abstract

ABSTRACTNutrition is a modifiable risk factor for ischemic stroke. As people age their ability to absorb some nutrients decreases, a primary example is vitamin B12. Older individuals with a vitamin B12 deficiency are at a higher risk for ischemic stroke and have worse stroke outcome. However, the mechanisms through which these occur remain unknown. The aim of the study was to investigate the role of vitamin B12 deficiency in ischemic stroke outcome and mechanistic changes in a mouse model. Ten-month-old male and female mice were put on control or vitamin B12 deficient diets for 4 weeks prior to and after ischemic stroke to the sensorimotor cortex. Motor function was measured, and tissues were collected to assess potential mechanisms. All deficient mice had increased levels of total homocysteine in plasma and liver tissues. After ischemic stroke, deficient mice had impaired motor function compared to control mice. There was no difference between groups in ischemic damage volume. However, within the ischemic damage region, there was an increase in total apoptosis of male deficient mice compared to controls. Furthermore, there was an increase in neuronal survival in ischemic brain tissue of the vitamin B12 deficient mice compared to controls. Additionally, there were changes in choline metabolites in ischemic brain tissue because of a vitamin B12 deficiency. The data presented in this study confirms that a vitamin B12 deficiency worsens stroke outcome in male and female mice. The mechanisms driving this change may be a result of neuronal survival and compensation in choline metabolism within the damaged brain tissue.

Published
2024
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47. Supplementary Tables 1-8 and Supplementary Figure 1 from Sex-Specific Associations between One-Carbon Metabolism Indices and Posttranslational Histone Modifications in Arsenic-Exposed Bangladeshi Adults

Author

Howe, Caitlin G., primary, Liu, Xinhua, primary, Hall, Megan N., primary, Ilievski, Vesna, primary, Caudill, Marie A., primary, Malysheva, Olga, primary, Lomax-Luu, Angela M., primary, Parvez, Faruque, primary, Siddique, Abu B., primary, Shahriar, Hasan, primary, Uddin, Mohammad N., primary, Islam, Tariqul, primary, Graziano, Joseph H., primary, Costa, Max, primary, and Gamble, Mary V., primary

Published
2023
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48. Data from Sex-Specific Associations between One-Carbon Metabolism Indices and Posttranslational Histone Modifications in Arsenic-Exposed Bangladeshi Adults

Author

Howe, Caitlin G., primary, Liu, Xinhua, primary, Hall, Megan N., primary, Ilievski, Vesna, primary, Caudill, Marie A., primary, Malysheva, Olga, primary, Lomax-Luu, Angela M., primary, Parvez, Faruque, primary, Siddique, Abu B., primary, Shahriar, Hasan, primary, Uddin, Mohammad N., primary, Islam, Tariqul, primary, Graziano, Joseph H., primary, Costa, Max, primary, and Gamble, Mary V., primary

Published
2023
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49. Data from Plasma Choline Metabolites and Colorectal Cancer Risk in the Women's Health Initiative Observational Study

Author

Bae, Sajin, primary, Ulrich, Cornelia M., primary, Neuhouser, Marian L., primary, Malysheva, Olga, primary, Bailey, Lynn B., primary, Xiao, Liren, primary, Brown, Elissa C., primary, Cushing-Haugen, Kara L., primary, Zheng, Yingye, primary, Cheng, Ting-Yuan David, primary, Miller, Joshua W., primary, Green, Ralph, primary, Lane, Dorothy S., primary, Beresford, Shirley A.A., primary, and Caudill, Marie A., primary

Published
2023
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50. Supplementary Table S2 from Plasma Choline Metabolites and Colorectal Cancer Risk in the Women's Health Initiative Observational Study

Author

Bae, Sajin, primary, Ulrich, Cornelia M., primary, Neuhouser, Marian L., primary, Malysheva, Olga, primary, Bailey, Lynn B., primary, Xiao, Liren, primary, Brown, Elissa C., primary, Cushing-Haugen, Kara L., primary, Zheng, Yingye, primary, Cheng, Ting-Yuan David, primary, Miller, Joshua W., primary, Green, Ralph, primary, Lane, Dorothy S., primary, Beresford, Shirley A.A., primary, and Caudill, Marie A., primary

Published
2023
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