Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.31 (beta-glucuronidase)
 7,680 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have compared the effects of a general matrix metalloproteinase (MMP) inhibitor (CT435) with those of a concentration-dependent specific gelatinase inhibitor (CT543; Ki < 20 nM) on bone resorption in vitro. The test systems consisted of measuring: (i) the release of 45Ca2+ from prelabelled mouse calvarial explants; (ii) the release of 45Ca2+ from prelabelled osteoid-free calvarial explants co-cultured with purified chicken osteoclasts; and (iii) lacunar resorption by isolated rat osteoclasts cultured on ivory slices. Both CT435 and CT543 dose-dependently inhibited the release of 45Ca2+ from neonatal calvarial bones stimulated by either parathyroid hormone or 1,25-dihydroxyvitamin D3. Moreover, CT543 produced a 40% inhibition at a concentration (10(-8) M) selective for the inhibition of human gelatinases A and B. CT435 (10(-5) M) and CT543 (10(-5) M) partially inhibited the release of 45Ca2+ from osteoid-free calvarial explants by chicken osteoclasts with a maximum of approximately 25% for unstimulated cultures, and approximately 36% for cultures stimulated by interleukin-1 alpha (IL-1 alpha; 10(-10) M). Neither inhibitor prevented lacunar resorption on ivory by unstimulated rat osteoclasts, but the compounds produced a partial reduction in both the number and total surface area of lacunae in IL-1 alpha-stimulated cultures, with maximal action at 10(-5) M. Neither of the inhibitors affected protein or DNA synthesis, nor the IL-1 alpha-stimulated secretion of the lysosomal enzyme beta-glucuronidase. Immunocytochemistry demonstrated that isolated rabbit osteoclasts constitutively expressed gelatinase A and synthesized gelatinase B, collagenase and stromelysin, as well as the tissue inhibitor of matrix metalloproteinases-1 (TIMP-1) following IL-1 alpha stimulation. These experiments have shown that in addition to collagenase, gelatinases A and B are likely to play a significant role in bone resorption. They further suggest that MMPs produced by osteoclasts are released into the sub-osteoclastic resorption zone where they participate in bone collagen degradation.
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PMID:The effects of selective inhibitors of matrix metalloproteinases (MMPs) on bone resorption and the identification of MMPs and TIMP-1 in isolated osteoclasts. 769 5

The role of matrix metalloproteinases in parathyroid hormone (PTH)-induced bone resorption was assayed using a fetal rat limb bone culture system. Cotreatment of bones with PTH and recombinant inhibitor of metalloproteinases, TIMP-1, in vitro, inhibited the PTH-stimulated 45Ca release from the limb bones without affecting beta-glucuronidase release. TIMP-1 was fully effective when added during only the final 24 h of a 72 h culture with PTH but was ineffective when added for only the first 24 h of the 72 h culture. In contrast, calcitonin (CT) was effective when added for either the first 24 or the final 24 h of the culture. Using in situ hybridization, the mRNA for collagenase was detected in mononuclear cells of cultured bone. Treatment of the bones with PTH resulted in an increase in the number of cells producing collagenase mRNA, some of which had osteoclastic morphology, PTH also caused a dramatic induction of the mRNA for the 92-kD gelatinase B metalloproteinase in both mononuclear and osteoclastic cells. There was no detectable mRNA for the metalloproteinases stromelysin-1, stromelysin-2, or matrilysin in PTH-treated or control cultures. These results suggest that PTH-induced bone resorption is mediated, at least in part, by the induction of collagenase and gelatinase B mRNA in bone cells.
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PMID:Parathyroid hormone-induced resorption in fetal rat limb bones is associated with production of the metalloproteinases collagenase and gelatinase B. 877 Jun 99

Degeneration processes that affect bioprosthetic heart valves made from glutaraldehyde treated bovine pericardium are poorly understood. The present study undertook the identification and characterization of matrix metalloproteinases (MMPs) in extracts obtained from 28 pericardial derived bioprosthetic heart valves explanted at surgery. A lysosomal marker was used to assess the incidence of infiltrating extracellular matrix degrading cells. The major biochemical features that were associated with tissue degeneration and bioprosthetic heart valve failure were increased levels of MMP 9, high levels of beta-glucuronidase, and constant levels of active collagenase and MMP 2. The MMPs extracted from ruptured bioprostheses were inhibited by calcium chelators and zinc binding compounds. These data suggest that tissue failure, in addition to known mechanical and calcification related factors, may be contributed to by the intervention of proteolytic enzymes. A schematic working model was proposed that described the major biochemical pathways underlying tissue degeneration, starting from bioprostheses preparation and ending with clinical failure.
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PMID:Biochemical pathways of tissue degeneration in bioprosthetic cardiac valves. The role of matrix metalloproteinases. 894 42

Degenerative dysfunction of cardiac valves may be accounted for by uncontrolled extracellular matrix degradation processes in which matrix metalloproteinases could play a major role. In this study, 24 pathologic human valves and 26 pericardial-derived bioprostheses were analysed for metalloproteinases by gelatin zymography. Compared to controls, human stenotic valves and bioprostheses explanted because of either calcifying or noncalcifying degeneration revealed three notable biochemical aspects: (1) an amplification in the levels of metalloproteinase 9 (gelatinase B), suggestive of its active role in valvular pathology; (2) minimal modifications in the gelatinolytic levels of metalloproteinase 2 (gelatinase A), indicative of a constitutive secretion; and (3) activation products derived from both gelatinase A and B. All gelatinolytic activities identified in pathologic specimens were inhibited in vitro by zinc and calcium chelators (captopril, doxycycline, dithiothreitol, and ethylenediaminotetraacetic acid), suggesting potential therapeutic approaches. High levels of beta-glucuronidase (a lysosomal marker enzyme for phagocytic cells) were found in human calcified stenotic valves and in ruptured and calcified pericardial-derived bioprostheses. Mononuclear recruitment was minimal to moderate in pathologic human valves, and in noncalcified ruptured bioprostheses infiltrating mononuclear cells were concentrated in large numbers at the cuspal free edge. These findings suggest the involvement of infiltrating phagocytic cells and putative common mechanisms in the degeneration of both the natural and the bioprosthetic valvular extracellular matrix (ECM).
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PMID:Matrix metalloproteinases in the pathology of natural and bioprosthetic cardiac valves. 2585 89