Discovery of bone gamma-carboxyglutamic acid protein in mineralized scales. The abundance and structure of Lepomis macrochirus bone gamma-carboxyglutamic acid protein.

The mineralized scale of the freshwater sunfish Lepomis macrochirus (bluegill) contains a Gla protein. The protein was identified in extracts of scale by a new colorimetric assay for Gla-containing proteins. The protein was purified by gel filtration chromatography followed by reversed phase high performance liquid chromatography (HPLC). Several tests establish the identity of scale Gla protein and bone Gla protein (BGP). First, the proteins exhibit identical mobilities on electrophoresis and by reversed phase HPLC. Second, they have identical amino-terminal amino acid sequences. Finally, identical peptides are generated by proteolytic digestion. The 45-residue amino acid sequence of the bone Gla protein from L. macrochirus has a high sequence homology with swordfish, as well as homology to mammalian bone Gla protein. The BGP of bluegill shares with swordfish BGP a truncated NH2 terminus and an extended COOH terminus. These features may be unique to fish, as they have not been observed in terrestrial vertebrates. The bluegill BGP is the first vitamin K-dependent protein to contain a non-gamma-carboxylated residue to the NH2-terminal side of all of its Gla residues. In all other vitamin K-dependent proteins, Gla always appears to the NH2-terminal side of the first Glu. The implications of this result are discussed. The bluegill rib bone is curiously enriched in BGP, as are other mineralized tissues of this species. One hypothesis is that this may be due to the acellular nature of the bone in this species. The abundance of BGP in the bones of this fish may provide clues to the unknown function of this bone protein.