Menadione is a metabolite of oral vitamin K
Phylloquinone is converted into menaquinone-4 and accumulates in extrahepatic tissues. Neither the route nor the function of the conversion is known. One possible metabolic route might be the release of menadione from phylloquinone by catabolic activity. In the present study we explored the presence...
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| Published in | British journal of nutrition Vol. 95; no. 2; pp. 260 - 266 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Cambridge, UK
Cambridge University Press
01.02.2006
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0007-1145 1475-2662 |
| DOI | 10.1079/BJN20051630 |
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| Abstract | Phylloquinone is converted into menaquinone-4 and accumulates in extrahepatic tissues. Neither the route nor the function of the conversion is known. One possible metabolic route might be the release of menadione from phylloquinone by catabolic activity. In the present study we explored the presence of menadione in urine and the effect of vitamin K intake on its excretion. Menadione in urine was analysed by HPLC assay with fluorescence detection. Urine from healthy male volunteers was collected before and after administration of a single dose of K vitamins. Basal menadione excretion in non-supplemented subjects (n 6) was 5·4 (sd 3·2) μg/d. Urinary menadione excretion increased greatly after oral intake of the K vitamins, phylloquinone and menaquinone-4 and -7. This effect was apparent within 1–2h and peaked at about 3h after intake. Amounts of menadione excreted in 24h after vitamin K intake ranged, on a molar basis, from 1 to 5% of the administered dose, indicating that about 5–25% of the ingested K vitamins had been catabolized to menadione. Menadione excretion was not enhanced by phylloquinone administered subcutaneously or by 2′,3′-dihydrophylloquinone administered orally. In archived samples from a depletion/repletion study (Booth et al. (2001)Am J Clin Nutr74, 783–790), urinary menadione excretion mirrored dietary phylloquinone intake. The present study shows that menadione is a catabolic product of K vitamins formed after oral intake. The rapid appearance in urine after oral but not subcutaneous administration suggests that catabolism occurs during intestinal absorption. The observations make it likely that part of the menaquinone-4 in tissues results from uptake and prenylation of circulating menadione |
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| AbstractList | Phylloquinone is converted into menaquinone-4 and accumulates in extrahepatic tissues. Neither the route nor the function of the conversion is known. One possible metabolic route might be the release of menadione from phylloquinone by catabolic activity. In the present study we explored the presence of menadione in urine and the effect of vitamin K intake on its excretion. Menadione in urine was analysed by HPLC assay with fluorescence detection. Urine from healthy male volunteers was collected before and after administration of a single dose of K vitamins. Basal menadione excretion in non-supplemented subjects (n 6) was 5.4 (SD 3.2) microgram/d. Urinary menadione excretion increased greatly after oral intake of the K vitamins, phylloquinone and menaquinone-4 and -7. This effect was apparent within 1-2 h and peaked at about 3 h after intake. Amounts of menadione excreted in 24 h after vitamin K intake ranged, on a molar basis, from 1 to 5 % of the administered dose, indicating that about 5-25 % of the ingested K vitamins had been catabolized to menadione. Menadione excretion was not enhanced by phylloquinone administered subcutaneously or by 2',3'-dihydrophylloquinone administered orally. In archived samples from a depletion/repletion study (Booth et al. (2001) Am J Clin Nutr 74, 783-790), urinary menadione excretion mirrored dietary phylloquinone intake. The present study shows that menadione is a catabolic product of K vitamins formed after oral intake. The rapid appearance in urine after oral but not subcutaneous administration suggests that catabolism occurs during intestinal absorption. The observations make it likely that part of the menaquinone-4 in tissues results from uptake and prenylation of circulating menadione. Phylloquinone is converted into menaquinone-4 and accumulates in extrahepatic tissues. Neither the route nor the function of the conversion is known. One possible metabolic route might be the release of menadione from phylloquinone by catabolic activity. In the present study we explored the presence of menadione in urine and the effect of vitamin K intake on its excretion. Menadione in urine was analysed by HPLC assay with fluorescence detection. Urine from healthy male volunteers was collected before and after administration of a single dose of K vitamins. Basal menadione excretion in non-supplemented subjects (n 6) was 5.4 (sd 3.2) microg/d. Urinary menadione excretion increased greatly after oral intake of the K vitamins, phylloquinone and menaquinone-4 and -7. This effect was apparent within 1-2 h and peaked at about 3 h after intake. Amounts of menadione excreted in 24 h after vitamin K intake ranged, on a molar basis, from 1 to 5 % of the administered dose, indicating that about 5-25 % of the ingested K vitamins had been catabolized to menadione. Menadione excretion was not enhanced by phylloquinone administered subcutaneously or by 2',3'-dihydrophylloquinone administered orally. In archived samples from a depletion/repletion study (Booth et al. (2001) Am J Clin Nutr 74, 783-790), urinary menadione excretion mirrored dietary phylloquinone intake. The present study shows that menadione is a catabolic product of K vitamins formed after oral intake. The rapid appearance in urine after oral but not subcutaneous administration suggests that catabolism occurs during intestinal absorption. The observations make it likely that part of the menaquinone-4 in tissues results from uptake and prenylation of circulating menadione. Phylloquinone is converted into menaquinone-4 and accumulates in extrahepatic tissues. Neither the route nor the function of the conversion is known. One possible metabolic route might be the release of menadione from phylloquinone by catabolic activity. In the present study we explored the presence of menadione in urine and the effect of vitamin K intake on its excretion. Menadione in urine was analysed by HPLC assay with fluorescence detection. Urine from healthy male volunteers was collected before and after administration of a single dose of K vitamins. Basal menadione excretion in non-supplemented subjects ( n 6) was 5·4 (sd 3·2) μg/d. Urinary menadione excretion increased greatly after oral intake of the K vitamins, phylloquinone and menaquinone-4 and -7. This effect was apparent within 1–2h and peaked at about 3h after intake. Amounts of menadione excreted in 24h after vitamin K intake ranged, on a molar basis, from 1 to 5% of the administered dose, indicating that about 5–25% of the ingested K vitamins had been catabolized to menadione. Menadione excretion was not enhanced by phylloquinone administered subcutaneously or by 2′,3′-dihydrophylloquinone administered orally. In archived samples from a depletion/repletion study (Booth et al. (2001) Am J Clin Nutr 74 , 783–790), urinary menadione excretion mirrored dietary phylloquinone intake. The present study shows that menadione is a catabolic product of K vitamins formed after oral intake. The rapid appearance in urine after oral but not subcutaneous administration suggests that catabolism occurs during intestinal absorption. The observations make it likely that part of the menaquinone-4 in tissues results from uptake and prenylation of circulating menadione Phylloquinone is converted into menaquinone-4 and accumulates in extrahepatic tissues. Neither the route nor the function of the conversion is known. One possible metabolic route might be the release of menadione from phylloquinone by catabolic activity. In the present study we explored the presence of menadione in urine and the effect of vitamin K intake on its excretion. Menadione in urine was analysed by HPLC assay with fluorescence detection. Urine from healthy male volunteers was collected before and after administration of a single dose of K vitamins. Basal menadione excretion in non-supplemented subjects (n 6) was 5·4 (sd 3·2) μg/d. Urinary menadione excretion increased greatly after oral intake of the K vitamins, phylloquinone and menaquinone-4 and -7. This effect was apparent within 1–2h and peaked at about 3h after intake. Amounts of menadione excreted in 24h after vitamin K intake ranged, on a molar basis, from 1 to 5% of the administered dose, indicating that about 5–25% of the ingested K vitamins had been catabolized to menadione. Menadione excretion was not enhanced by phylloquinone administered subcutaneously or by 2′,3′-dihydrophylloquinone administered orally. In archived samples from a depletion/repletion study (Booth et al. (2001)Am J Clin Nutr74, 783–790), urinary menadione excretion mirrored dietary phylloquinone intake. The present study shows that menadione is a catabolic product of K vitamins formed after oral intake. The rapid appearance in urine after oral but not subcutaneous administration suggests that catabolism occurs during intestinal absorption. The observations make it likely that part of the menaquinone-4 in tissues results from uptake and prenylation of circulating menadione Phylloquinone is converted into menaquinone-4 and accumulates in extrahepatic tissues. Neither the route nor the function of the conversion is known. One possible metabolic route might be the release of menadione from phylloquinone by catabolic activity. In the present study we explored the presence of menadione in urine and the effect of vitamin K intake on its excretion. Menadione in urine was analysed by HPLC assay with fluorescence detection. Urine from healthy male volunteers was collected before and after administration of a single dose of K vitamins. Basal menadione excretion in non-supplemented subjects (n 6) was 5·4 (sd 3·2) μg/d. Urinary menadione excretion increased greatly after oral intake of the K vitamins, phylloquinone and menaquinone-4 and -7. This effect was apparent within 1-2h and peaked at about 3h after intake. Amounts of menadione excreted in 24h after vitamin K intake ranged, on a molar basis, from 1 to 5% of the administered dose, indicating that about 5-25% of the ingested K vitamins had been catabolized to menadione. Menadione excretion was not enhanced by phylloquinone administered subcutaneously or by 2[variant prime],3[variant prime]-dihydrophylloquinone administered orally. In archived samples from a depletion/repletion study (Booth et al. (2001)Am J Clin Nutr 74 , 783-790), urinary menadione excretion mirrored dietary phylloquinone intake. The present study shows that menadione is a catabolic product of K vitamins formed after oral intake. The rapid appearance in urine after oral but not subcutaneous administration suggests that catabolism occurs during intestinal absorption. The observations make it likely that part of the menaquinone-4 in tissues results from uptake and prenylation of circulating menadione [PUBLICATION ABSTRACT] Phylloquinone is converted into menaquinone-4 and accumulates in extrahepatic tissues. Neither the route nor the function of the conversion is known. One possible metabolic route might be the release of menadione from phylloquinone by catabolic activity. In the present study we explored the presence of menadione in urine and the effect of vitamin K intake on its excretion. Menadione in urine was analysed by HPLC assay with fluorescence detection. Urine from healthy male volunteers was collected before and after administration of a single dose of K vitamins. Basal menadione excretion in non-supplemented subjects (n 6) was 5.4 (sd 3.2) microg/d. Urinary menadione excretion increased greatly after oral intake of the K vitamins, phylloquinone and menaquinone-4 and -7. This effect was apparent within 1-2 h and peaked at about 3 h after intake. Amounts of menadione excreted in 24 h after vitamin K intake ranged, on a molar basis, from 1 to 5 % of the administered dose, indicating that about 5-25 % of the ingested K vitamins had been catabolized to menadione. Menadione excretion was not enhanced by phylloquinone administered subcutaneously or by 2',3'-dihydrophylloquinone administered orally. In archived samples from a depletion/repletion study (Booth et al. (2001) Am J Clin Nutr 74, 783-790), urinary menadione excretion mirrored dietary phylloquinone intake. The present study shows that menadione is a catabolic product of K vitamins formed after oral intake. The rapid appearance in urine after oral but not subcutaneous administration suggests that catabolism occurs during intestinal absorption. The observations make it likely that part of the menaquinone-4 in tissues results from uptake and prenylation of circulating menadione.Phylloquinone is converted into menaquinone-4 and accumulates in extrahepatic tissues. Neither the route nor the function of the conversion is known. One possible metabolic route might be the release of menadione from phylloquinone by catabolic activity. In the present study we explored the presence of menadione in urine and the effect of vitamin K intake on its excretion. Menadione in urine was analysed by HPLC assay with fluorescence detection. Urine from healthy male volunteers was collected before and after administration of a single dose of K vitamins. Basal menadione excretion in non-supplemented subjects (n 6) was 5.4 (sd 3.2) microg/d. Urinary menadione excretion increased greatly after oral intake of the K vitamins, phylloquinone and menaquinone-4 and -7. This effect was apparent within 1-2 h and peaked at about 3 h after intake. Amounts of menadione excreted in 24 h after vitamin K intake ranged, on a molar basis, from 1 to 5 % of the administered dose, indicating that about 5-25 % of the ingested K vitamins had been catabolized to menadione. Menadione excretion was not enhanced by phylloquinone administered subcutaneously or by 2',3'-dihydrophylloquinone administered orally. In archived samples from a depletion/repletion study (Booth et al. (2001) Am J Clin Nutr 74, 783-790), urinary menadione excretion mirrored dietary phylloquinone intake. The present study shows that menadione is a catabolic product of K vitamins formed after oral intake. The rapid appearance in urine after oral but not subcutaneous administration suggests that catabolism occurs during intestinal absorption. The observations make it likely that part of the menaquinone-4 in tissues results from uptake and prenylation of circulating menadione. |
| Author | Shearer, Martin J. Schurgers, Leon J. Thijssen, Henk H. W. Vervoort, Lily M. T. |
| Author_xml | – sequence: 1 givenname: Henk H. W. surname: Thijssen fullname: Thijssen, Henk H. W. email: h.thijssen@farmaco.unimaas.nl organization: 1Department of Pharmacology, Cardiovascular Research Institute Maastricht, University of MaastrichtPO Box 616, 6200 MD Maastricht, The Netherlands – sequence: 2 givenname: Lily M. T. surname: Vervoort fullname: Vervoort, Lily M. T. organization: 1Department of Pharmacology, Cardiovascular Research Institute Maastricht, University of MaastrichtPO Box 616, 6200 MD Maastricht, The Netherlands – sequence: 3 givenname: Leon J. surname: Schurgers fullname: Schurgers, Leon J. organization: 2Department of Biochemistry, University of Maastricht, The Netherlands – sequence: 4 givenname: Martin J. surname: Shearer fullname: Shearer, Martin J. organization: 3The Centre for Haemostasis and Thrombosis, St. Thomas's Hospital, London, UK |
| BackLink | http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=17671220$$DView record in Pascal Francis https://www.ncbi.nlm.nih.gov/pubmed/16469140$$D View this record in MEDLINE/PubMed |
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| Copyright | Copyright © The Nutrition Society 2006 2006 INIST-CNRS The Nutrition Society |
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| Keywords | Menaquinone-4 Phylloquinone Menadione Metabolism Vitamin K Vertebrata Mammalia Metabolite Oral administration Menadione: Phylloquinone: Metabolism: Menaquinone-4: Vitamin K Menaquinone Retinol |
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| References | Schurgers (S0007114506000341_ref021) 2000; 30 Billeter (S0007114506000341_ref002) 1964; 340 S0007114506000341_ref015 Conley (S0007114506000341_ref006) 1992; 16 S0007114506000341_ref014 S0007114506000341_ref013 S0007114506000341_ref012 S0007114506000341_ref033 S0007114506000341_ref032 S0007114506000341_ref010 S0007114506000341_ref031 S0007114506000341_ref030 Sundaram (S0007114506000341_ref026) 1996; 126 S0007114506000341_ref009 Billeter (S0007114506000341_ref003) 1960; 333 S0007114506000341_ref007 S0007114506000341_ref029 S0007114506000341_ref028 S0007114506000341_ref005 S0007114506000341_ref027 Hagstrom (S0007114506000341_ref008) 1995; 74 S0007114506000341_ref004 S0007114506000341_ref025 S0007114506000341_ref024 S0007114506000341_ref023 S0007114506000341_ref001 Sakamoto (S0007114506000341_ref019) 1996; 66 S0007114506000341_ref022 S0007114506000341_ref020 S0007114506000341_ref018 S0007114506000341_ref017 S0007114506000341_ref016 Hu (S0007114506000341_ref011) 1995; 666 |
| References_xml | – volume: 126 start-page: 2746 year: 1996 ident: S0007114506000341_ref026 article-title: Vitamin K status influences brain sulfatide metabolism in young mice and rats publication-title: J Nutr – ident: S0007114506000341_ref028 doi: 10.1079/BJN19940043 – ident: S0007114506000341_ref017 doi: 10.1016/S0304-4165(97)00089-5 – volume: 16 start-page: 307 year: 1992 ident: S0007114506000341_ref006 article-title: The production of menaquinones (vitamin K2) by intestinal bacteria and their role in maintaining coagulation homeostasis. publication-title: Prog Food Nutr Sci – ident: S0007114506000341_ref025 doi: 10.1016/S0083-6729(08)60025-4 – volume: 340 start-page: 290 year: 1964 ident: S0007114506000341_ref002 article-title: Untersuchungen über die Umwandlung von verfütterten K-vitaminen durch austauch der Seitenkette und die rolle der Darmbakterien hierbei. publication-title: Biochem Z – ident: S0007114506000341_ref031 doi: 10.1079/BJN2001505 – ident: S0007114506000341_ref022 doi: 10.1016/S0304-4165(02)00147-2 – ident: S0007114506000341_ref015 doi: 10.1021/bi00853a012 – ident: S0007114506000341_ref010 doi: 10.1194/jlr.D400033-JLR200 – ident: S0007114506000341_ref016 doi: 10.1007/978-1-4757-5806-1_6 – volume: 333 start-page: 430 year: 1960 ident: S0007114506000341_ref003 article-title: Ü ber die Umwandlung von Phyllochinon (Vitamin K1) in Vitamin K2(20) in Tierkörper. publication-title: Biochem Z – ident: S0007114506000341_ref012 doi: 10.1021/bi00816a018 – ident: S0007114506000341_ref027 doi: 10.1021/bi00831a047 – ident: S0007114506000341_ref032 doi: 10.1016/j.bbrc.2004.05.086 – ident: S0007114506000341_ref023 doi: 10.1016/S0140-6736(95)90227-9 – volume: 30 start-page: 298 year: 2000 ident: S0007114506000341_ref021 article-title: Determination of phylloquinone and menaquinones in food. Effect of food matrix on circulating vitamin K concentrations publication-title: Haemostasis – ident: S0007114506000341_ref001 doi: 10.1111/j.1538-7836.2004.00968.x – ident: S0007114506000341_ref014 doi: 10.1093/ajcn/67.6.1226 – ident: S0007114506000341_ref013 doi: 10.1093/jn/126.suppl_4.1192S – ident: S0007114506000341_ref004 doi: 10.1093/ajcn/74.6.783 – ident: S0007114506000341_ref030 doi: 10.1093/jn/126.2.537 – ident: S0007114506000341_ref007 doi: 10.1093/jn/128.2.220 – ident: S0007114506000341_ref009 doi: 10.1016/S0021-9673(01)94685-0 – volume: 66 start-page: 322 year: 1996 ident: S0007114506000341_ref019 article-title: Changes of phylloquinone and menaquinone-4 concentrations in rat live rafter oral, intravenous and intraperitoneal administration. publication-title: Int J Vitam Nutr Res – ident: S0007114506000341_ref005 doi: 10.1093/jn/134.1.167 – volume: 666 start-page: 299 year: 1995 ident: S0007114506000341_ref011 article-title: Determination of anticancer drug vitamin K3 in plasma by high-performance liquid chromatography publication-title: J Chromatogr doi: 10.1016/0378-4347(94)00572-M – volume: 74 start-page: 1486 year: 1995 ident: S0007114506000341_ref008 article-title: The pharmacokintics and lipoprotein fraction distribution of intramuscular vs. oral vitaminK1 supplementation in women of childbearing age: effects on hemostasis. publication-title: Thromb Haemost doi: 10.1055/s-0038-1649970 – ident: S0007114506000341_ref033 doi: 10.1016/S0378-4347(00)82907-2 – ident: S0007114506000341_ref020 doi: 10.1016/S0304-4165(03)00135-1 – ident: S0007114506000341_ref018 doi: 10.1016/S0006-291X(03)00323-1 – ident: S0007114506000341_ref029 doi: 10.1079/BJN19960115 – ident: S0007114506000341_ref024 doi: 10.1097/00075197-200011000-00004 |
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| Snippet | Phylloquinone is converted into menaquinone-4 and accumulates in extrahepatic tissues. Neither the route nor the function of the conversion is known. One... |
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| SubjectTerms | administration & dosage Administration, Cutaneous Administration, Oral analogs & derivatives Biological and medical sciences Cell Line Cells, Cultured Dietary Supplements Excretion Feeding. Feeding behavior Fundamental and applied biological sciences. Psychology Hemostatics Hemostatics - administration & dosage Humans intestinal absorption Liquid chromatography Male Menadione Menaquinone-4 menaquinones Metabolism Metabolites Phylloquinone Proteins urination Urine Vertebrates: anatomy and physiology, studies on body, several organs or systems Vitamin K Vitamin K - administration & dosage Vitamin K - metabolism Vitamin K 1 Vitamin K 1 - administration & dosage Vitamin K 1 - analogs & derivatives Vitamin K 1 - metabolism Vitamin K 2 Vitamin K 2 - administration & dosage Vitamin K 2 - analogs & derivatives Vitamin K 3 Vitamin K 3 - urine vitamin metabolism vitamin supplements Vitamins Vitamins - administration & dosage Vitamins - metabolism volunteers |
| Title | Menadione is a metabolite of oral vitamin K |
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