Identification of UBIAD1 as a novel human menaquinone-4 biosynthetic enzyme

Vitamin K occurs in the natural world in several forms, including a plant form, phylloquinone (PK), and a bacterial form, menaquinones (MKs). In many species, including humans, PK is a minor constituent of hepatic vitamin K content, with most hepatic vitamin K content comprising long-chain MKs. Mena...

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Bibliographic Details
Published in:Nature (London) 2010-11, Vol.468 (7320), p.117-121
Main Authors: Okano, Toshio, Nakagawa, Kimie, Hirota, Yoshihisa, Sawada, Natsumi, Yuge, Naohito, Watanabe, Masato, Uchino, Yuri, Okuda, Naoko, Shimomura, Yuka, Suhara, Yoshitomo
Format: Article
Language:English
Subjects:
631/45/607
631/92/1643
631/92/458/2133
Animal tissues
Animals
Baculoviridae - genetics
Baculoviridae - physiology
Biological and medical sciences
Biosynthesis
Bone and Bones - metabolism
Cell Line
Cell metabolism, cell oxidation
Cell physiology
Composition
Conversion
Deuterium
Dimethylallyltranstransferase
E coli
Enzymes
Fundamental and applied biological sciences. Psychology
Gene expression
Health aspects
Humanities and Social Sciences
Humans
letter
Magnetic Resonance Imaging
Mice
Molecular and cellular biology
multidisciplinary
Osteoblasts
Physiological aspects
Proteins - genetics
Proteins - metabolism
RNA, Small Interfering - genetics
RNA, Small Interfering - metabolism
Science
Science (multidisciplinary)
Spodoptera - cytology
Spodoptera - virology
Studies
Transferases
Vitamin K
Vitamin K - antagonists & inhibitors
Vitamin K - metabolism
Vitamin K 1 - metabolism
Vitamin K 2 - analogs & derivatives
Vitamin K 2 - analysis
Vitamin K 2 - chemistry
Vitamin K 2 - metabolism
Warfarin - pharmacology
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Summary:Vitamin K occurs in the natural world in several forms, including a plant form, phylloquinone (PK), and a bacterial form, menaquinones (MKs). In many species, including humans, PK is a minor constituent of hepatic vitamin K content, with most hepatic vitamin K content comprising long-chain MKs. Menaquinone-4 (MK-4) is ubiquitously present in extrahepatic tissues, with particularly high concentrations in the brain, kidney and pancreas of humans and rats. It has consistently been shown that PK is endogenously converted to MK-4 (refs 4-8). This occurs either directly within certain tissues or by interconversion to menadione (K3), followed by prenylation to MK-4 (refs 9-12). No previous study has sought to identify the human enzyme responsible for MK-4 biosynthesis. Previously we provided evidence for the conversion of PK and K3 into MK-4 in mouse cerebra. However, the molecular mechanisms for these conversion reactions are unclear. Here we identify a human MK-4 biosynthetic enzyme. We screened the human genome database for prenylation enzymes and found UbiA prenyltransferase containing 1 (UBIAD1), a human homologue of Escherichia coli prenyltransferase menA. We found that short interfering RNA against the UBIAD1 gene inhibited the conversion of deuterium-labelled vitamin K derivatives into deuterium-labelled-MK-4 (MK-4-d7) in human cells. We confirmed that the UBIAD1 gene encodes an MK-4 biosynthetic enzyme through its expression and conversion of deuterium-labelled vitamin K derivatives into MK-4-d7 in insect cells infected with UBIAD1 baculovirus. Converted MK-4-d7 was chemically identified by 2H-NMR analysis. MK-4 biosynthesis by UBIAD1 was not affected by the vitamin K antagonist warfarin. UBIAD1 was localized in endoplasmic reticulum and ubiquitously expressed in several tissues of mice. Our results show that UBIAD1 is a human MK-4 biosynthetic enzyme; this identification will permit more effective decisions to be made about vitamin K intake and bone health.
ISSN:0028-0836
1476-4687
DOI:10.1038/nature09464