Vitamin K-Dependent Carboxylation of the Carboxylase

Vitamin K-dependent (VKD) proteins require modification by the VKD-γ -glutamyl carboxylase, an enzyme that converts clusters of glus to glas in a reaction that requires vitamin K hydroquinone, for their activity. We have discovered that the carboxylase also carboxylates itself in a reaction dependen...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 1998-01, Vol.95 (2), p.466-471
Main Authors: Berkner, Kathleen L., Pudota, B. Nirmala
Format: Article
Language:English
Subjects:
Biochemistry
Biological Sciences
Carbon-Carbon Ligases - metabolism
Carboxylation
Cell Line
Cell lines
Chromatography, High Pressure Liquid
Complementary DNA
Cultured cells
Enzymes
Humans
Hydroquinones
Insect viruses
Kinetics
Microsomes
Molecular biology
Proteins
Substrate Specificity
Vitamin K
Vitamin K - metabolism
Vitamins
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Summary:Vitamin K-dependent (VKD) proteins require modification by the VKD-γ -glutamyl carboxylase, an enzyme that converts clusters of glus to glas in a reaction that requires vitamin K hydroquinone, for their activity. We have discovered that the carboxylase also carboxylates itself in a reaction dependent on vitamin K. When pure human recombinant carboxylase was incubated in vitro with14CO2and then analyzed after SDS/PAGE, a radiolabeled band corresponding to the size of the carboxylase was observed. Subsequent gla analysis of in vitro-modified carboxylase by base hydrolysis and HPLC showed that all of the radioactivity could be attributed to gla residues. Quantitation of gla, asp, and glu residues indicated 3 mol gla/mol carboxylase. Radiolabeled gla was acid-labile, confirming its identity, and was not observed if vitamin K was not included in the in vitro reaction. Carboxylase carboxylation also was detected in baculovirus-(carboxylase)-infected insect cells but not in mock-infected insect cells, which do not express endogenous VKD proteins or carboxylase. Finally, we showed that the carboxylase was carboxylated in vivo. Carboxylase was purified from recombinant carboxylase BHK cells cultured in the presence or absence of vitamin K and analyzed for gla residues. Carboxylation of the carboxylase only was observed with carboxylase isolated from BHK cells cultured in vitamin K, and 3 mol gla/mol carboxylase were detected. Analyses of carboxylase and factor IX carboxylation in vitro suggest a possible role for carboxylase carboxylation in factor IX turnover, and in vivo studies suggest a potential role in carboxylase stability. The discovery of carboxylase carboxylation has broad implications for the mechanism of VKD protein carboxylation and Warfarin-based anti-coagulant therapies that need to be considered both retrospectively and in the future.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.95.2.466