Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine the relationship between the expression of bone proteins and the formation of mineralized-tissue matrix, the biosynthesis of non-collagenous bone proteins was studied in cultures of fetal-rat calvarial cells, which form mineralized nodules of bone-like tissue in the presence of beta-glycerophosphate. The temporal pattern of protein synthesis in both mineralizing and non-mineralizing cultures was studied by metabolic labelling with [35S]methionine, 35SO4(2-) or 32PO4(3-) over a 5-day period. After a 24 h labelling period, the culture media were harvested and the cell layers extracted sequentially with aq. 0.5 M-NH3, followed by 4 M-guanidinium chloride (GdmCl), 0.5 M-EDTA and a second extraction with 4 M-GdmCl. Protein associated with collagenous bone matrix was analysed after digestion with bacterial collagenase. On the basis of [35S]methionine labelling, the major proteins extracted from the mineralizing matrix were secreted phosphoprotein-1 (SPP-1; osteopontin), bone sialoprotein (BSP) and a 14 kDa phosphoprotein. The presence of SPP-1 and BSP in the conditioned media of both mineralizing and non-mineralizing cultures and their incorporation into the mineralizing nodules indicated that these proteins associate with preformed mineral crystals. However, some BSP was also present in GdmCl extracts and, together with a 35 kDa sulphated protein, was released from a bacterial-collagenase digestion of the tissue residue in both non-mineralizing and mineralizing cultures. Two forms of sulphated SPP-1 were identified, a highly phosphorylated 44 kDa species being the predominant form in the mineralized matrix. The BSP was more highly sulphated but less phosphorylated than SPP-1. Bone SPARC (secreted protein, acid and rich in cysteine) protein (osteonectin) was present almost entirely in the conditioned media and did not incorporate 32PO4(3-) or 35SO4(2-). The SPP-1 and the 14 kDa protein were susceptible to thrombin digestion, the 44 kDa SPP-1 being specifically cleaved into 28 and 26 kDa fragments. The fragments were labelled uniformly with [35S]methionine, but the 28 kDa fragment incorporated more 35SO4(2-), but less 32PO4(3-), than the 26 kDa fragment. These studies demonstrate that SPP-1 and BSP are the major osteoblast-derived bone proteins to bind to the bone mineral. That BSP also binds to the collagenous bone matrix indicates a potential role for this protein in linking the hydroxyapatite with collagen.
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PMID:Biosynthesis of bone proteins [SPP-1 (secreted phosphoprotein-1, osteopontin), BSP (bone sialoprotein) and SPARC (osteonectin)] in association with mineralized-tissue formation by fetal-rat calvarial cells in culture. 200 15

We found that the matrix metalloproteinases collagenase (MMP-1) and stromelysin (MMP-3) each has the ability to degrade a novel substrate, serum amyloid A (SAA3). SAA3 is a product of rabbit synovial fibroblasts stimulated with phorbol esters or interleukin-1, and it acts in an autocrine or paracrine manner to induce collagenase in both rabbit and human fibroblasts. Recombinant rabbit fibroblast procollagenase and human fibroblast prostromelysin were produced by baby hamster kidney (BHK) cells stably transfected with these genes, and latent enzyme was activated with aminophenylmercuric acetate (APMA). The Km for both enzymes was approximately 10 microM, and the Vmax for collagenase was approximately 6 pmol/minute/100 ng enzyme, while that for stromelysin was about 3-fold faster. Treatment of SAA3 with either enzyme generated a fragment of approx. 6 kDa that has the same amino terminus as the parent molecule, but this fragment was rapidly degraded. We have been unable to isolate C-terminal fragments, suggesting that the mature protein is cleaved at multiple sites and/or that the initial cleavage fragment is readily digested. The amino acid composition of the 6 kDa fragment suggests that the 14 kDa protein is cleaved at residues 50-57, a hydrophobic region that is conserved between rabbit SAA3 and human SAA1. We conclude that the ability of collagenase and stromelysin to degrade SAA3 broadens the repertoire of substrates for these matrix degrading enzymes, and we speculate that the presence of a feedback mechanism that can subvert the autocrine/paracrine stimulation of matrix-degrading enzymes may play a role in limiting matrix degradation during inflammatory conditions.
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PMID:The acute phase reactant serum amyloid A (SAA3) is a novel substrate for degradation by the metalloproteinases collagenase and stromelysin. 846 13