Two related questions are investigated in this proposal. First, what is the biological function of the vitamin K-dependent, bone specific protein, bone Gla protein (BGP, Osteocalcin)? BGP is an abundant, noncollagenous protein which comprises approximately 1-2% of the total proteins present. A number of key experiments point to the function and control of biosynthesis of BGP. BGP is found in minute quantities in the circulation, and the levels are altered in metabolic bone diseases. Bone Gla protein requires its full complement of 3 delta-carboxyglutamic acid residues in order to bind to the bone mineral phase, as treatment with the vitamin K antagonist warfarin abolishes the delta-carboxylation of BGP and its mineral binding capacity. Thus, rats treated with warfarin do not accumulate BGP in bone, although they continue to grow normally. The post translational delta-carboxylation of BGP is essential for its normal intracellular processing and secretion from the cell. Bone culture experiments have shown that this protein is made in bone by osteoblasts, and is synthesized at a rate comparable to type I collagen. When vitamin D metabolites are added to cultures, collagen synthesis and bone Gla protein synthesis are regulated in opposite directions. Bone Gla protein levels in bone and serum decline with age, as does the capacity to form new bone. The second, related question is, why does bone formation rate and osteoblastic function decline in aged rats. Either the bone formation rate or the bone resorption rat or both are abnormal in osteoporosis. We propose to determine if stem cell depletion or a loss of systemic factors are the cause of the decreased bone formation in the old rat. A specific radioimmunoassay for BGP will be combined with in vivo and in vitro experiments to explore the biosynthesis and function of this protein. Two model systems, one in vivo, and one in vitro will be used to test for stem cell activity from rats of different ages.

Agency
National Institute of Health (NIH)
Institute
National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)
Type
Research Project (R01)
Project #
5R01AR035056-05
Application #
3157020
Study Section
Orthopedics and Musculoskeletal Study Section (ORTH)
Project Start
1988-07-15
Project End
1993-06-30
Budget Start
1989-07-01
Budget End
1990-06-30
Support Year
5
Fiscal Year
1989
Total Cost
Indirect Cost
Name
University of Tennessee Health Science Center
Department
Type
Schools of Medicine
DUNS #
941884009
City
Memphis
State
TN
Country
United States
Zip Code
38163
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Zhao, J; Nishimoto, S K (1995) An RNA-competitive polymerase chain reaction method for human matrix gamma-carboxyglutamic acid protein mRNA measurement. Anal Biochem 228:162-4
Zhao, J; Araki, N; Nishimoto, S K (1995) Quantitation of matrix Gla protein mRNA by competitive polymerase chain reaction using glyceraldehyde-3-phosphate dehydrogenase as an internal control. Gene 155:159-65
Nishimoto, S K; Zhao, J; Dass, C (1994) Isolation and characterization of the reaction product of 4-diazobenzenesulfonic acid and gamma-carboxyglutamic acid: modification of the assay for measurement of beta-carboxyaspartic acid. Anal Biochem 216:159-64
Nishimoto, S K; Robinson, F D; Snyder, D L (1993) Effect of aging and dietary restriction on matrix Gla protein and other components of rat tracheal cartilage. Matrix 13:373-80
Nishimoto, S K; Araki, N; Robinson, F D et al. (1992) Discovery of bone gamma-carboxyglutamic acid protein in mineralized scales. The abundance and structure of Lepomis macrochirus bone gamma-carboxyglutamic acid protein. J Biol Chem 267:11600-5
Nishimoto, S K (1990) A colorimetric assay specific for gamma-carboxyglutamic acid-containing proteins: its utility in protein purification procedures. Anal Biochem 186:273-9
Nishimoto, S K; Padilla, S M; Snyder, D L (1990) The effect of food restriction and germ-free environment on age-related changes in bone matrix. J Gerontol 45:B164-8