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1. Noncanonical function of folate through folate receptor 1 during neural tube formation.

Author

Panoutsopoulos, Alexios, Visina, Olesya, Selhub, Jacob, Borodinsky, Laura, Knoepfler, Paul, and Balashova, Olga

Subjects
Humans, Folic Acid, Neural Tube, Folate Receptor 1, Neural Tube Defects, Neural Plate
Abstract

Folate supplementation reduces the occurrence of neural tube defects (NTDs), birth defects consisting in the failure of the neural tube to form and close. The mechanisms underlying NTDs and their prevention by folate remain unclear. Here we show that folate receptor 1 (FOLR1) is necessary for the formation of neural tube-like structures in human-cell derived neural organoids. FOLR1 knockdown in neural organoids and in Xenopus laevis embryos leads to NTDs that are rescued by pteroate, a folate precursor that is unable to participate in metabolism. We demonstrate that FOLR1 interacts with and opposes the function of CD2-associated protein, molecule essential for apical endocytosis and turnover of C-cadherin in neural plate cells. In addition, folates increase Ca2+ transient frequency, suggesting that folate and FOLR1 signal intracellularly to regulate neural plate folding. This study identifies a mechanism of action of folate distinct from its vitamin function during neural tube formation.

Published
2024

4. Knowledge gaps in understanding the metabolic and clinical effects of excess folates/folic acid: a summary, and perspectives, from an NIH workshop

Author

Maruvada, Padma, Stover, Patrick J, Mason, Joel B, Bailey, Regan L, Davis, Cindy D, Field, Martha S, Finnell, Richard H, Garza, Cutberto, Green, Ralph, Gueant, Jean-Louis, Jacques, Paul F, Klurfeld, David M, Lamers, Yvonne, MacFarlane, Amanda J, Miller, Joshua W, Molloy, Anne M, O'Connor, Deborah L, Pfeiffer, Christine M, Potischman, Nancy A, Rodricks, Joseph V, Rosenberg, Irwin H, Ross, Sharon A, Shane, Barry, Selhub, Jacob, Stabler, Sally P, Trasler, Jacquetta, Yamini, Sedigheh, and Zappalà, Giovanna

Subjects
Biomedical and Clinical Sciences, Nutrition and Dietetics, Nutrition, Prevention, Clinical Research, Complementary and Integrative Health, Aetiology, Prevention of disease and conditions, and promotion of well-being, 3.3 Nutrition and chemoprevention, 2.2 Factors relating to the physical environment, Cancer, Cardiovascular, Good Health and Well Being, Adolescent, Adult, Child, Child, Preschool, Dietary Supplements, Dose-Response Relationship, Drug, Folic Acid, Humans, Middle Aged, United States, folic acid, folate, vitamin B-12, upper limit, excess intake, unmetabolized folic acid, adverse outcomes, Engineering, Medical and Health Sciences, Nutrition & Dietetics, Clinical sciences, Nutrition and dietetics
Abstract

Folate, an essential nutrient found naturally in foods in a reduced form, is present in dietary supplements and fortified foods in an oxidized synthetic form (folic acid). There is widespread agreement that maintaining adequate folate status is critical to prevent diseases due to folate inadequacy (e.g., anemia, birth defects, and cancer). However, there are concerns of potential adverse effects of excess folic acid intake and/or elevated folate status, with the original concern focused on exacerbation of clinical effects of vitamin B-12 deficiency and its role in neurocognitive health. More recently, animal and observational studies have suggested potential adverse effects on cancer risk, birth outcomes, and other diseases. Observations indicating adverse effects from excess folic acid intake, elevated folate status, and unmetabolized folic acid (UMFA) remain inconclusive; the data do not provide the evidence needed to affect public health recommendations. Moreover, strong biological and mechanistic premises connecting elevated folic acid intake, UMFA, and/or high folate status to adverse health outcomes are lacking. However, the body of evidence on potential adverse health outcomes indicates the need for comprehensive research to clarify these issues and bridge knowledge gaps. Three key research questions encompass the additional research needed to establish whether high folic acid or total folate intake contributes to disease risk. 1) Does UMFA affect biological pathways leading to adverse health effects? 2) Does elevated folate status resulting from any form of folate intake affect vitamin B-12 function and its roles in sustaining health? 3) Does elevated folate intake, regardless of form, affect biological pathways leading to adverse health effects other than those linked to vitamin B-12 function? This article summarizes the proceedings of an August 2019 NIH expert workshop focused on addressing these research areas.

Published
2020

6. Excess Folic Acid and Vitamin B12 Deficiency: Clinical Implications?

Author

Miller, Joshua W., Smith, Andre, Troen, Aron M., Mason, Joel B., Jacques, Paul F., and Selhub, Jacob

Abstract

Background: In the 1940s to 1950s, high-dose folic acid supplements (>5 mg/d) were used clinically to reverse the megaloblastic anemia of vitamin B12 deficiency caused by pernicious anemia. However, this treatment strategy masked the underlying B12 deficiency and possibly exacerbated its neuropathological progression. The issue of masking and exacerbating B12 deficiency has recently been rekindled with the institution of folic acid fortification and the wide-spread use of folic acid supplements. Objectives: The objectives of this review are to describe clinical and epidemiological evidence that excess folic acid exacerbates B12 deficiency, to summarize a hypothesis to explain this phenomenon, and to provide guidance for clinicians. Results: Cognitive function test scores are lower and blood homocysteine and methylmalonic acid concentrations are higher in people with low B12 and elevated folate than in those with low B12 and nonelevated folate. High-dose folic acid supplementation in patients with pernicious anemia or epilepsy cause significant reductions in serum B12. It is hypothesized that high-dose folic acid supplements cause depletion of serum holotranscobalamin and thus exacerbate B12 deficiency. Conclusion: The evidence for excess folic acid exacerbating B12 deficiency is primarily correlative or from uncontrolled clinical observations, and the hypothesis to explain the phenomenon has not yet been tested. Nonetheless, the evidence is sufficiently compelling to warrant increased vigilance for identifying B12 deficiency in at risk individuals, including older adults and others with low B12 intake or conditions that are associated with B12 malabsorption, who also ingest excessive folic acid or are prescribed folic acid in high doses. Plain language title: Excess Folic Acid and Vitamin B12 Deficiency: Clinical Implications? Plain language summary: It has been known for many decades that high doses of the B vitamin supplement, folic acid, can alleviate the anemia of vitamin B12 deficiency, at least temporarily. However, by alleviating the anemia, such folic acid supplements were said to "mask" the underlying vitamin B12 deficiency, thus allowing neurological damage to continue or possibly be exacerbated. Consequently, treating vitamin B12 deficiency with high dose folic acid was discontinued in the 1970s. The issue of whether folic acid supplements can exacerbate vitamin B12 deficiency reemerged in the 1990s with folic acid fortification of cereals and grains in the United States and Canada (and now in over 80 countries around the world) to prevent spina bifida and other birth defects. This narrative review summarizes the results of studies that have assessed the relationships between folic acid and folate and vitamin B12 status in patients and in populations. A recent hypothesis on how folic acid might exacerbate vitamin B12 deficiency is summarized, and recommendations to clinicians are made for increased vigilance in assessing vitamin B12 status in certain groups at risk of vitamin B12 deficiency, including older adults, people with gastrointestinal issues and other factors that cause vitamin B12 malabsorption, people with unexplained neurological problems, and people who follow vegan or vegetarian diets which are naturally low in vitamin B12. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Excess Folic Acid and Vitamin B12 Deficiency: Clinical Implications?

Author

Green, Ralph, Plattel, Clara, Miller, Joshua W., Smith, Andre, Troen, Aron M., Mason, Joel B., Jacques, Paul F., and Selhub, Jacob

Abstract

Background: In the 1940s to 1950s, high-dose folic acid supplements (>5 mg/d) were used clinically to reverse the megaloblastic anemia of vitamin B12 deficiency caused by pernicious anemia. However, this treatment strategy masked the underlying B12 deficiency and possibly exacerbated its neuropathological progression. The issue of masking and exacerbating B12 deficiency has recently been rekindled with the institution of folic acid fortification and the wide-spread use of folic acid supplements.Objectives: The objectives of this review are to describe clinical and epidemiological evidence that excess folic acid exacerbates B12 deficiency, to summarize a hypothesis to explain this phenomenon, and to provide guidance for clinicians.Results: Cognitive function test scores are lower and blood homocysteine and methylmalonic acid concentrations are higher in people with low B12 and elevated folate than in those with low B12 and nonelevated folate. High-dose folic acid supplementation in patients with pernicious anemia or epilepsy cause significant reductions in serum B12. It is hypothesized that high-dose folic acid supplements cause depletion of serum holotranscobalamin and thus exacerbate B12 deficiency.Conclusion: The evidence for excess folic acid exacerbating B12 deficiency is primarily correlative or from uncontrolled clinical observations, and the hypothesis to explain the phenomenon has not yet been tested. Nonetheless, the evidence is sufficiently compelling to warrant increased vigilance for identifying B12 deficiency in at risk individuals, including older adults and others with low B12 intake or conditions that are associated with B12 malabsorption, who also ingest excessive folic acid or are prescribed folic acid in high doses.

Published
2024
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17. Pyridoxine supplementation corrects vitamin B6 deficiency but does not improve inflammation in patients with rheumatoid arthritis.

Author

Chiang, Eugene, Selhub, Jacob, Bagley, Pamela, Dallal, Gerard, and Roubenoff, Ronenn

Subjects
Arthritis, Rheumatoid, Double-Blind Method, Female, Health Status, Humans, Inflammation, Male, Middle Aged, Pyridoxine, Severity of Illness Index, Surveys and Questionnaires, Treatment Outcome, Vitamin B 6 Deficiency
Abstract

Patients with rheumatoid arthritis have subnormal vitamin B6 status, both quantitatively and functionally. Abnormal vitamin B6 status in rheumatoid arthritis has been associated with spontaneous tumor necrosis factor (TNF)-alpha production and markers of inflammation, including C-reactive protein and erythrocyte sedimentation rate. Impaired vitamin B6 status could be a result of inflammation, and these patients may have higher demand for vitamin B6. The aim of this study was to determine if daily supplementation with 50 mg of pyridoxine for 30 days can correct the static and/or the functional abnormalities of vitamin B6 status seen in patients with rheumatoid arthritis, and further investigate if pyridoxine supplementation has any effects on the pro-inflammatory cytokine TNF-alpha or IL-6 production of arthritis. This was a double-blinded, placebo-controlled study involving patients with rheumatoid arthritis with plasma pyridoxal 5-phosphate below the 25th percentile of the Framingham Heart Cohort Study. Vitamin B6 status was assessed via plasma and erythrocyte pyridoxal 5-phosphate concentrations, the erythrocyte aspartate aminotransferase activity coefficient (alphaEAST), net homocysteine increase in response to a methionine load test (DeltatHcy), and 24 h urinary xanthurenic acid (XA) excretion in response to a tryptophan load test. Urinary 4-pyridoxic acid (4-PA) was measured to examine the impact of pyridoxine treatment on vitamin B6 excretion in these patients. Pro-inflammatory cytokine (TNF-alpha and IL-6) production, C-reactive protein levels and the erythrocyte sedimentation rate before and after supplementation were also examined. Pyridoxine supplementation significantly improved plasma and erythrocyte pyridoxal 5-phosphate concentrations, erythrocyte alphaEAST, urinary 4-PA, and XA excretion. These improvements were apparent regardless of baseline B6 levels. Pyridoxine supplementation also showed a trend (p < 0.09) towards a reduction in post-methionine load DeltatHcy. Supplementation did not affect pro-inflammatory cytokine production. Although pyridoxine supplementation did not suppress pro-inflammatory cytokine production in patients with rheumatoid arthritis, the suboptimal vitamin B6 status seen in rheumatoid arthritis can be corrected by 50 mg pyridoxine supplementation for 30 days. Data from the present study suggest that patients with rheumatoid arthritis may have higher requirements for vitamin B6 than those in a normal healthy population.

Published
2005

18. Inflammation causes tissue-specific depletion of vitamin B6.

Author

Chiang, Eugene, Smith, Donald, Selhub, Jacob, Dallal, Gerard, Wang, Yi-Cheng, and Roubenoff, Ronenn

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Animals, Arthritis, Experimental, Arthritis, Rheumatoid, Cross-Sectional Studies, Disease Models, Animal, Female, Humans, Inflammation, Liver, Male, Middle Aged, Muscle, Skeletal, Rats, Rats, Inbred Lew, Vitamin B 6, Vitamin B 6 Deficiency
Abstract

Previously we observed strong and consistent associations between vitamin B6 status and several indicators of inflammation in patients with rheumatoid arthritis. Clinical indicators, including the disability score, the length of morning stiffness, and the degree of pain, and biochemical markers, including the erythrocyte sedimentation rate and C-reactive protein levels, were found to be inversely correlated with circulating vitamin B6 levels. Such strong associations imply that impaired vitamin B6 status in these patients results from inflammation. In the present study we examined whether inflammation directly alters vitamin B6 tissue contents and its excretion in vivo. A cross-sectional case-controlled human clinical trial was performed in parallel with experiments in an animal model of inflammation. Plasma and erythrocyte and pyridoxal 5-phosphate concentrations, urinary 4-pyridoxic acid excretion, and the activity coefficient of erythrocyte aspartate aminotransferase were compared between patients and healthy subjects. Adjuvant arthritis was induced in rats for investigating hepatic and muscle contents as well as the urinary excretion of vitamin B6 during acute and chronic inflammation. Patients with rheumatoid arthritis had low plasma pyridoxal 5-phosphate compared with healthy control subjects, but normal erythrocyte pyridoxal 5-phosphate and urinary 4-pyridoxic acid excretion. Adjuvant arthritis in rats did not affect 4-pyridoxic acid excretion or muscle storage of pyridoxal 5-phosphate, but it resulted in significantly lower pyridoxal 5-phosphate levels in circulation and in liver during inflammation. Inflammation induced a tissue-specific depletion of vitamin B6. The low plasma pyridoxal 5-phosphate levels seen in inflammation are unlikely to be due to insufficient intake or excessive vitamin B6 excretion. Possible causes of decreased levels of vitamin B6 are discussed.

Published
2005

24. List of Contributors

Author

Abdoulaye, Ka, primary, Allen, Lindsay H., additional, Bailey, Lynn B., additional, Barclay, Denis V., additional, Bhutta, Zulfiqar A., additional, Bleuthner, Andreas, additional, Bouis, Howarth E., additional, Cashman, Kevin D., additional, Cercamondi, Colin I., additional, Chaudhry, Siraj A., additional, Chavasit, Visith, additional, Christoforou, Anthea, additional, Darnton-Hill, Ian, additional, Dary, Omar, additional, Das, Jai K., additional, de Pee, Saskia, additional, Detzel, Patrick, additional, Diosady, Levente László, additional, Flynn, Albert, additional, Friesen, Valerie M., additional, Garrett, Greg S., additional, Geraets, Maarten, additional, Horton, Susan, additional, Hurrell, Richard F., additional, Jungjohann, Svenja, additional, Kar, Basanta Kumar, additional, Khan, Raja S., additional, Klassen-Wigger, Petra, additional, Krishnaswamy, Kiruba, additional, Laviolette, Luc, additional, Lenoble, Henri P., additional, López de Romaña, Daniel, additional, Luthringer, Corey L., additional, L’Abbé, Mary, additional, Mannar, M.G. Venkatesh, additional, Manus, Caroline, additional, Martorell, Reynaldo, additional, Mbuya, Mduduzi N.N., additional, Messier, Marie C., additional, Montgomery, Scott J., additional, Moretti, Diego, additional, Neufeld, Lynnette M., additional, Norsen, Sheida, additional, Olivares, Manuel, additional, Pachón, Helena, additional, Photi, Juntima, additional, Pizarro, Fernando, additional, Randall, Philip, additional, Rosenberg, Irwin H., additional, Rowe, Laura A., additional, Ruth, Laird J., additional, Selhub, Jacob, additional, Serdula, Mary, additional, Shulman, Susan, additional, Tanumihardjo, Sherry A., additional, Tsang, Becky L., additional, van Liere, Marti J., additional, Wiemer, Kathryn, additional, Zimmerman, Sarah, additional, and Zimmermann, Michael B., additional

Published
2018
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26. Common genetic loci influencing plasma homocysteine concentrations and their effect on risk of coronary artery disease

Author

van Meurs, Joyce BJ, Pare, Guillaume, Schwartz, Stephen M, Hazra, Aditi, Tanaka, Toshiko, Vermeulen, Sita H, Cotlarciuc, Ioana, Yuan, Xin, Mälarstig, Anders, Bandinelli, Stefania, Bis, Joshua C, Blom, Henk, Brown, Morris J, Chen, Constance, Chen, Yii-Der, Clarke, Robert J, Dehghan, Abbas, Erdmann, Jeanette, Ferrucci, Luigi, Hamsten, Anders, Hofman, Albert, Hunter, David J, Goel, Anuj, Johnson, Andrew D, Kathiresan, Sekar, Kampman, Ellen, Kiel, Douglas P, Kiemeney, Lambertus ALM, Chambers, John C, Kraft, Peter, Lindemans, Jan, McKnight, Barbara, Nelson, Christopher P, O’Donnell, Christopher J, Psaty, Bruce M, Ridker, Paul M, Rivadeneira, Fernando, Rose, Lynda M, Seedorf, Udo, Siscovick, David S, Schunkert, Heribert, Selhub, Jacob, Ueland, Per M, Vollenweider, Peter, Waeber, Gérard, Waterworth, Dawn M, Watkins, Hugh, Witteman, Jacqueline CM, den Heijer, Martin, Jacques, Paul, Uitterlinden, Andre G, Kooner, Jaspal S, Rader, Dan J, Reilly, Muredach P, Mooser, Vincent, Chasman, Daniel I, Samani, Nilesh J, and Ahmadi, Kourosh R

Published
2013
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35. Association Between Plasma Homocysteine, Vitamin Status, and Extracranial Carotid-Artery Stenosis in the Framingham Study Population

Author

Selhub, Jacob, Jacques, Paul F., Bostom, Andrew G., D’Agostino, Ralph B., Wilson, Peter W. F., Belanger, Albert J., O’Leary, Daniel H., Wolf, Philip A., Rush, David, Schaefer, Ernst J., Rosenberg, Irwin H., Graham, Ian, editor, Refsum, Helga, editor, Rosenberg, Irwin H., editor, Ueland, Per Magne, editor, and Shuman, Jill M., editor

Published
1997
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39. Biomarkers of vitamin B-12 status in NHANES: a roundtable summary

Author

Yetley, Elizabeth A, Pfeiffer, Christine M, Phinney, Karen W, Bailey, Regan L, Blackmore, Sheena, Bock, Jay L, Brody, Lawrence C, Carmel, Ralph, Curtin, L Randy, Durazo-Arvizu, Ramón A, Eckfeldt, John H, Green, Ralph, Gregory, Jesse F, III, Hoofnagle, Andrew N, Jacobsen, Donald W, Jacques, Paul F, Lacher, David A, Molloy, Anne M, Massaro, Joseph, Mills, James L, Nexo, Ebba, Rader, Jeanne I, Selhub, Jacob, Sempos, Christopher, Shane, Barry, Stabler, Sally, Stover, Patrick, Tamura, Tsunenobu, Tedstone, Alison, Thorpe, Susan J, Coates, Paul M, Johnson, Clifford L, and Picciano, Mary Frances

Published
2011
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40. Biomarkers of folate status in NHANES: a roundtable summary

Author

Yetley, Elizabeth A, Pfeiffer, Christine M, Phinney, Karen W, Fazili, Zia, Lacher, David A, Bailey, Regan L, Blackmore, Sheena, Bock, Jay L, Brody, Lawrence C, Carmel, Ralph, Curtin, L Randy, Durazo-Arvizu, Ramón A, Eckfeldt, John H, Green, Ralph, Gregory, Jesse F, III, Hoofnagle, Andrew N, Jacobsen, Donald W, Jacques, Paul F, Molloy, Anne M, Massaro, Joseph, Mills, James L, Nexo, Ebba, Rader, Jeanne I, Selhub, Jacob, Sempos, Christopher, Shane, Barry, Stabler, Sally, Stover, Patrick, Tamura, Tsunenobu, Tedstone, Alison, Thorpe, Susan J, Coates, Paul M, Johnson, Clifford L, and Picciano, Mary Frances

Published
2011
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