Folate bioavailability

The achievement of optimal folate status to prevent neural-tube defects, and possibly other diseases, is hindered by the well-recognised incomplete bioavailability of the natural folates found in foods compared with the synthetic vitamin, folic acid. Folate bioavailability from different foods is considered to be dependent on a number of factors, including the food matrix, the intestinal deconjugation of polyglutamyl folates, the instability of certain labile folates during digestion and the presence of certain dietary constituents that may enhance folate stability during digestion. There is conflicting evidence as to whether the extent of conjugation of polyglutamyl folate (in the absence of specific inhibitors of deconjugation in certain foods) is a limiting factor in folate bioavailability. Estimates of the extent of lower bioavailability of food folates compared with folic acid (relative bioavailability) show great variation, ranging anywhere between 10 and 98%, depending on the methodological approach used. The lack of accurate data on folate bioavailability from natural food sources is of particular concern in those countries in which there is no mandatory folic acid fortification, and therefore a greater reliance on natural food folates as a means to optimise status. Apart from the incomplete bioavailability of food folates, the poor stability of folates in foods (particularly green vegetables) under typical conditions of cooking can substantially reduce the amount of vitamin ingested and thereby be an additional factor limiting the ability of food folates to enhance folate status. A recent workshop convened by the Food Standards Agency concluded that gaining a better understanding of folate bioavailability in representative human diets is a high priority for future research.

[1]  D. Weir,et al.  Ingestion and absorption of naturally occurring pteroylmonoglutamates (folates) in man. , 1973, Gastroenterology.

[2]  P. Finglas,et al.  The synthesis of folic acid, multiply labelled with stable isotopes, for bio-availability studies in human nutrition , 1999 .

[3]  P. Taylor,et al.  Folate requirement and metabolism in nonpregnant women. , 1987, The American journal of clinical nutrition.

[4]  A. M. Smith,et al.  Folate intake and blood concentrations of term infants. , 1985, The American journal of clinical nutrition.

[5]  R. Newcombe,et al.  A comparison of the effect of advice to eat either ‘5-a-day’ fruit and vegetables or folic acid-fortified foods on plasma folate and homocysteine , 2003, European Journal of Clinical Nutrition.

[6]  A. D. Smith,et al.  Glutamate carboxypeptidase II: a polymorphism associated with lower levels of serum folate and hyperhomocysteinemia. , 2000, Human molecular genetics.

[7]  J. Gregory,et al.  In vivo kinetics of folate metabolism. , 2002, Annual review of nutrition.

[8]  J. Mann,et al.  Dietary strategies for lowering homocysteine concentrations. , 2000, The American journal of clinical nutrition.

[9]  A. Melse-Boonstra,et al.  Bioavailability of heptaglutamyl relative to monoglutamyl folic acid in healthy adults. , 2004, The American journal of clinical nutrition.

[10]  Organic Acids in Selected Foods Inhibit Intestinal Brush Border Pteroylpolyglutamate Hydrolase in Vitro: Potential Mechanism Affecting the Bioavailability of Dietary Polyglutamyl Folate. , 1998, Journal of agricultural and food chemistry.

[11]  H. McNulty,et al.  The short-term bioavailabilities of [6S]-5-methyltetrahydrofolate and folic acid are equivalent in men. , 2004, The Journal of nutrition.

[12]  J. Gregory Improved synthesis of [3',5'-2H2]folic acid : extent and specificity of deuterium labeling , 1990 .

[13]  J. Gregory,et al.  Case study: folate bioavailability. , 2001, The Journal of nutrition.

[14]  J. Leichter,et al.  Effect of cooking on folate content of vegetables , 1978 .

[15]  D. Barton,et al.  A method for measuring folate in food and its application to a hospital diet. , 1968, The American journal of clinical nutrition.

[16]  R. Jacob,et al.  Food Folate Assay with Protease, α-Amylase, and Folate Conjugase Treatments , 1997 .

[17]  P. Finglas,et al.  Folate bioavailability: UK Food Standards Agency workshop report , 2003, British Journal of Nutrition.

[18]  J. Mason,et al.  Folate and carcinogenesis: an integrated scheme. , 2000, The Journal of nutrition.

[19]  Christopher M Thomas,et al.  Bioavailability of Folate from Processed Spinach in Humans , 2000, Annals of Nutrition and Metabolism.

[20]  C. Halsted The intestinal absorption of dietary folates in health and disease. , 1989, Journal of the American College of Nutrition.

[21]  C. Butterworth,et al.  Tropical sprue: a consideration of possible etiologic mechanisms with emphasis on pteroylpolyglutamate metabolism. , 1975, Transactions of the American Clinical and Climatological Association.

[22]  R. Öste,et al.  Loss of ascorbic acid, folacin and vitamin B12, and changes in oxygen content of UHT milk. II: Results and discussion , 1992 .

[23]  P. Wilson,et al.  The glutamate carboxypeptidase gene II (C>T) polymorphism does not affect folate status in the Framingham Offspring cohort. , 2002, The Journal of nutrition.

[24]  R. Fletcher,et al.  Public health aspects of food fortification: a question of balance , 2004, Proceedings of the Nutrition Society.

[25]  B. Shane,et al.  Folate bioavailability in humans: effects of wheat bran and beans. , 1988, The American journal of clinical nutrition.

[26]  L. Bailey,et al.  Absorption of folate from fortified cereal-grain products and of supplemental folate consumed with or without food determined by using a dual-label stable-isotope protocol. , 1997, The American journal of clinical nutrition.

[27]  M. Gnant,et al.  Prevention of neural tube defects: Results of the Medical Research Council Vitamin Study , 1991, The Lancet.

[28]  The H475Y polymorphism in the glutamate carboxypeptidase II gene increases plasma folate without affecting the risk for neural tube defects in humans. , 2003, The Journal of nutrition.

[29]  O. Frank,et al.  Severe Impairment of Dietary Folate Utilization in the Elderly , 1978, Journal of the American Geriatrics Society.

[30]  J. McKenzie,et al.  Increases in blood folate indices are similar in women of childbearing age supplemented with [6S]-5-methyltetrahydrofolate and folic acid. , 2002, The Journal of nutrition.

[31]  R. Eitenmiller,et al.  Effects of Processing and Storage on the Folate Content of Spinach and Broccoli , 1986 .

[32]  H. McNulty,et al.  The effect of different cooking methods on folate retention in various foods that are amongst the major contributors to folate intake in the UK diet. , 2002, The British journal of nutrition.

[33]  L. Bailey,et al.  Bioavailability for humans of deuterium-labeled monoglutamyl and polyglutamyl folates is affected by selected foods. , 1996, The Journal of nutrition.

[34]  H. McNulty,et al.  Effect of increasing dietary folate on red-cell folate: implications for prevention of neural tube defects , 1996, The Lancet.

[35]  H. A. Godwin,et al.  Comparative studies of the intestinal absorption of [3H]pteroylmonoglutamate and [3H]pteroylheptaglutamate in man. , 1975, Gastroenterology.

[36]  H. Blom,et al.  Influence of a glutamate carboxypeptidase II (GCPII) polymorphism (1561C-->T) on plasma homocysteine, folate and vitamin B(12) levels and its relationship to cardiovascular disease risk. , 2002, Atherosclerosis.

[37]  M. Khan Homocysteine and cardiovascular disease , 2011 .

[38]  W. Verschuren,et al.  Dietary monoglutamate and polyglutamate folate are associated with plasma folate concentrations in Dutch men and women aged 20-65 years. , 2002, The Journal of nutrition.

[39]  Christopher M Thomas,et al.  Dietary folate from vegetables and citrus fruit decreases plasma homocysteine concentrations in humans in a dietary controlled trial. , 1999, The Journal of nutrition.

[40]  J. Metz,et al.  Prevention of folate deficiency by food fortification. II. Absorption of folic acid from fortified staple foods. , 1975, The American journal of clinical nutrition.

[41]  M. Fenech,et al.  Aleurone flour is a rich source of bioavailable folate in humans. , 1999, The Journal of nutrition.

[42]  P. A. van den Brandt,et al.  Intestinal absorption of different types of folate in healthy subjects with an ileostomy , 2002, British Journal of Nutrition.

[43]  H. McNulty,et al.  B-vitamins, homocysteine metabolism and CVD , 2004, Proceedings of the Nutrition Society.

[44]  J. Weststrate,et al.  Influence of feeding different vegetables on plasma levels of carotenoids, folate and vitamin C. Effect of disruption of the vegetable matrix , 1999, British Journal of Nutrition.

[45]  B. Thorand,et al.  Availability of food folate in humans. , 1999, The Journal of nutrition.

[46]  J. Gregory,et al.  Inhibition by selected food components of human and porcine intestinal pteroylpolyglutamate hydrolase activity. , 1990, The American journal of clinical nutrition.

[47]  I. Chanarin,et al.  Intestinal Absorption of Reduced Folate Compounds in Man , 1970, British journal of haematology.

[48]  Y. Lamers,et al.  Supplementation with [6S]-5-methyltetrahydrofolate or folic acid equally reduces plasma total homocysteine concentrations in healthy women. , 2004, The American journal of clinical nutrition.

[49]  Sudha Seshadri,et al.  Plasma Homocysteine as a Risk Factor for Dementia and Alzheimer's Disease , 2002 .

[50]  E. Stokstad,et al.  The availability of food folate in man. , 1973, British journal of haematology.

[51]  B. Venn,et al.  Comparison of the effect of low-dose supplementation with L-5-methyltetrahydrofolate or folic acid on plasma homocysteine: a randomized placebo-controlled study. , 2003, The American journal of clinical nutrition.

[52]  J. Selhub,et al.  Properties of food folates determined by stability and susceptibility to intestinal pteroylpolyglutamate hydrolase action. , 1998, The Journal of nutrition.

[53]  P. Finglas,et al.  Single oral doses of 13C forms of pteroylmonoglutamic acid and 5-formyltetrahydrofolic acid elicit differences in short-term kinetics of labelled and unlabelled folates in plasma: potential problems in interpretation of folate bioavailability studies , 2003, British Journal of Nutrition.

[54]  T. Remer,et al.  Zur Bioverfügbarkeitsprüfung von Mikronährstoffen , 1989 .

[55]  A. Czeizel,et al.  Prevention of the first occurrence of neural-tube defects by periconceptional vitamin supplementation. , 1992, The New England journal of medicine.

[56]  A. Reisenauer,et al.  Human folate requirements. , 1987, The Journal of nutrition.

[57]  J. Arcot,et al.  Folate retention in selected processed legumes , 2000 .

[58]  D. Weir,et al.  The elucidation of the mechanism of folate catabolism in the rat. , 1976, Biochemical and biophysical research communications.