Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.24.3 (collagenase)
18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to explore the distribution of hormone-responsive cells in skeletal tissues, we have examined the effects of synthetic bovine parathyroid hormone N-terminal peptide (bPTH 1-34) and salmon calcitonin (sCT) on cyclic AMP levels in periosteum-free rat calvaria, segments of periosteum, and in isolated cells dispersed from each tissue by collagenase digestion. Synthetic bovine PTH increased cyclic AMP levels to a greater degree in calvaria and in isolated bone cells than in the periosteal segments and cells, whereas sCT was more effective in the periosteal than in the bone systems. Primary cultures prepared from bone and periosteal cell populations exhibited progressive increases in their responsiveness to bPTH (1-34) and progressive decreases in responsiveness to sCT. After six days in the culture, bone cells failed to respond to sCT, and sCT did not modify their response simultaneously added bPTH (1-34). Six-day periosteal cell cultures exhibited residual sCT responsivity and an additive response upon simultaneous exposure to high concentrations of bPTH (1-34) and sCT suggesting separate sites of hormone action. Adenosine, a known stimulator of bone cell adenylyl cyclase, caused a greater increase in periosteal cell than in bone cell cyclic AMP. bPTH (1-34)-responsive cells which enrich periosteum-free bone may be osteoblasts, in view of their histological prominence in this tissue and in the bone cell isolates. Periosteal cells which responded to sCT and to adenosine preferentially are unidentified. Although periosteal segments contained numerous fibroblast-like cells, skin fibroblasts cultured from the same fetuses were sCT-insensitive. Growth in primary culture appears to alter the number of hormone-responsive cells or responsiveness of existing cells to each hormone, or both.
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PMID:Evidence for preferential effects of parathyroid hormone, calcitonin and adenosine on bone and periosteum. 19 Dec 42

The aim of this study was to describe the normal distribution of calcitonin gene-related peptide (CGRP) and substance P (SP) containing fibres in the knee joint of the mouse and to obtain insight into the changes in innervation associated with degenerative processes in the joint. Arthrosis was induced by a single subpatellar intra-articular injection of bacterial collagenase. After decalcification in EDTA solutions, the CGRP and SP fibres were visualized by peroxidase-antiperoxidase pre-embedding immunocytochemistry for light microscopy. Control experiments on the mouse brain as a reference for the effect of EDTA on the immunostaining showed that the decalcification procedure with EDTA had not impaired the immunostaining. A rich innervation of thin varicose CGRP and SP immunoreactive fibres was found in most peri- and intra-articular tissue components. The periosteum, synovial tissues, the joint capsule and the intra-articular fat tissues were richly innervated. Less intense innervations were also found in the subchondral bone plates of the tibio-femoral joint and of the patella. Fibres were also found in the soft tissues between the patellar tendon and the femoral groove. No differences could be found between the location of CGRP and SP fibres with respect to the localization in the joint, but generally more CGRP fibres were found. The collagenase-induced osteoarthrosis was characterized by sclerosis of the subchondral bone, patellar dislocation, osteophyte formation, synovial proliferation and by severe cartilage abrasion, particularly on the medial side of the femoro-tibial joint. The overall distribution of CGRP and SP fibres was the same as in the control joints. However, major differences were found in all studied joints at specific locations around the cruciate ligaments, in the synovium around the patella, in the soft tissues lateral of the patella and in plica tissue between the patella and femoral groove. The CGRP and SP innervation was no longer detectable by immunolabelling with the antibodies. With a polyclonal antibody to the growth associated protein GAP-43/B-50, signs of degenerated axonal profiles were observed in these locations. At other peripheral locations, such as the muscles, the GAP-43/B-50 distribution was normal. In conclusion, the present study provides detailed information on the localization of CGRP and SP fibres, which may be involved in pain perception. Knowledge of the changes that occur during arthrosis may give more insight into the clinical symptoms.
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PMID:Calcitonin gene-related peptide, substance P and GAP-43/B-50 immunoreactivity in the normal and arthrotic knee joint of the mouse. 128 63

We examined the interactions of the glycosaminoglycan, heparin, and recombinant human basic fibroblast growth factor (bFGF) on collagen synthesis in 21-day fetal rat calvariae. In calvariae treated for 96 h, heparin (25 micrograms/ml) and bFGF (10(-9) M) inhibited collagenase-digestible protein (CDP) labeling by 52 and 60% of control, respectively, and the combination further inhibited CDP labeling. Inhibition of CDP labeling by heparin (25 micrograms/ml) or bFGF (10(-9), 10(-8) M) was similar in the presence or absence of aphidicolin (30 microM) an inhibitor of cell replication. Heparin selectively inhibited CDP labeling in the osteoblast rich central bone but bFGF alone or in combination with heparin inhibited CDP labeling both in the periosteum and central bone. Heparin and bFGF alone decreased steady state levels of alpha 1(I)procollagen messenger RNA (mRNA) at 24 h and the combination further decreased mRNA levels. A high concentration of insulin-like growth factor-1 (IGF-1, 3 x 10(-8) M) reversed the inhibitory effect of heparin on DNA synthesis and CDP labeling. In contrast, IGF-1 could not reverse the inhibitory effects of bFGF on CDP labeling but enhanced the stimulatory effects of bFGF on thymidine incorporation into DNA. We conclude that the inhibitory effects of heparin and bFGF on CDP are independent of effects on cell replication. We further conclude that both heparin and bFGF inhibit collagen synthesis at a pretranslational site since they decreased procollagen mRNA levels in osteoblasts. However, the inhibition of collagen synthesis by heparin and bFGF appears to involve divergent pathways since exogenous IGF-1 could overcome the effect of heparin but not bFGF on collagen synthesis.
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PMID:The interaction of heparin and basic fibroblast growth factor on collagen synthesis in 21-day fetal rat calvariae. 137 12

Total cellular RNA was extracted from bone cells of three different femoral compartments of 2-mo-old rats. The intact femora were first incubated with collagenase to obtain periosteal cells. The bisected periosteum-free diaphyses and metaphyses were then incubated with collagenase to obtain enriched populations of endosteal and cancellous bone cells, respectively. The total cellular RNA from these three tissues was separated by size using agarose gel electrophoresis, transferred to nylon filters, hybridized to 32P-labeled cDNA probes for glyceraldehyde-3-phosphate dehydrogenase (GAP), pre-pro-alpha (I) type I collagen (collagen), osteocalcin (BGP), and alkaline phosphatase (AP), and the cDNA/mRNA hybrids were visualized by radioautography. Bone matrix deposition was measured in each tissue compartment by tetracycline-based dynamic bone histomorphometry. The bone formation and apposition rates were greatest in the periosteum and least in metaphysis. Mean mRNA levels for collagen and BGP were positively correlated with mean bone formation and mineral apposition rates. Interestingly, mean AP mRNA levels were not correlated with indexes of bone formation. These results demonstrate that the steady-state mRNA levels for bone matrix proteins in femora show pronounced site specificity and correlate with the rates of bone matrix deposition.
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PMID:Tissue-specific expression of bone proteins in femora of growing rats. 141 91

The aim of the present study was to determine whether interleukin 1 alpha (Il-1), a cytokine known to have a stimulatory effect on collagenase production, also influences the phagocytosis and intracellular digestion of collagen fibrils by fibroblasts. Mouse long bones and calvariae both with surrounding periosteum were cultured for 24 or 48 hours in media containing varying concentrations of the cytokine. The periostea were subjected to morphometric analysis in order to assess the volume density of phagocytosed collagen fibrils in fibroblasts. The results indicated that neither in calvarial nor in long bone periosteum the uptake and intracellular degradation of collagen by fibroblasts was influenced by Il-1. However, between both tissues the amount of collagen phagocytosed differed considerably. It appeared that within 48 hours periosteal fibroblasts of calvariae ingested at least three times more fibrillar collagen than those of long bone periosteum. This finding suggests intrinsic differences between these connective tissues as to the phagocytic behaviour of the fibroblasts. Analysis of collagenase activity in the media demonstrated that under the influence of Il-1 collagenase release increased about 1.5- to 2-fold, most of the enzyme being in a latent form. The media also proved to contain an inhibitor of collagenase, its production not being affected by Il-1. It is concluded that under the conditions tested Il-1 does not seem to play a role in the regulation of the intracellular pathway of collagen digestion.
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PMID:Interleukin 1 increases the production of collagenase but does not influence the phagocytosis of collagen fibrils. 196 17

Previous studies have shown that prostaglandin E2 (PGE2) has both inhibitory and stimulatory effects on the incorporation of proline into collagenase-digestible protein (CDP) in cultured fetal rat calvaria. The present studies were undertaken to analyze further these biphasic effects of PGE2. PGE2 increased [3H]thymidine incorporation at 24 h, and this effect was enhanced in the presence of cortisol (10(-8) and 10(-7) M). An inhibitory effect on CDP labeling was observed at 96 h with PGE2 (10(-6) M) in the absence or presence of indomethacin (10(-6) M), but not in the presence of cortisol (10(-8) or 10(-7) M). When the central osteoblast-rich bone and periosteum were analyzed separately, the inhibitory effect of PGE2, with or without indomethacin, was confined to the central bone. Addition of aphidicolin (30 microM), an inhibitor of cell replication, did not prevent the inhibitory effect of PGE2 on CDP labeling. Analysis of labeled collagen by polyacrylamide gel electrophoresis showed a decrease in labeling of type I collagen in central bone. Moreover, mRNA for alpha 1(I)procollagen was decreased, as measured by dot blot hybridization and Northern blot analysis. Cortisol (10(-8)-10(-6) M) decreased the labeling of CDP as well as noncollagen protein (NCP) at 96 h. In the presence of cortisol, PGE2 (10(-8)-10(-5) M) consistently stimulated labeling of CDP and NCP, with a greater increase in CDP, resulting in an increase in the percentage of collagen synthesized. In the presence of low concentrations of cortisol (10(-8) or 3 x 10(-8) M), PGE2 (10(-7) M) increased CDP labeling by 260-480%, and the absolute value was 145-160% of that in control cultures without any hormone addition. The stimulatory effect was seen in both central bone and periosteum, although absolute values for CDP and percentage of collagen synthesized were higher in central bone. PGE2 (10(-7) M) had similar effects on CDP at 24 and 96 h in the presence of cortisol, and the stimulation at 10(-7) M was the same in the presence and absence of aphidicolin, suggesting that it was not dependent on cell replication. Cortisol decreased labeling of type I collagen, determined by polyacrylamide gel electrophoresis, and alpha 1(I)procollagen mRNA levels, determined by both Northern and dot blot analysis. PGE2 reversed these effects, increasing both radiolabeled collagen type I chains and alpha 1(I)procollagen mRNA levels. These results indicate that PGE2 can regulate bone collagen synthesis at a pretranslational site.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Biphasic effects of prostaglandin E2 on bone formation in cultured fetal rat calvariae: interaction with cortisol. 215 7

Periosteal cells were isolated from tibiae of adult male rats after collagenase treatment. Northern blot analysis of total cytoplasmic RNA extracted from the isolated periosteal cells was positive for expression of genes encoding the osteoblast marker proteins osteocalcin (BGP) and pre-pro-alpha 2(I) chain of type 1 precollagen. The isolated periosteal cells were incubated with 1 nM [3H]testosterone [( 3H]T) for up to 240 minutes and the reaction products separated by high-performance liquid chromatography. [3H]5 alpha-dihydrotestosterone [( 3H]DHT) was not detected in extracts of periosteal cell incubations. In contrast, [3H]DHT was produced in a time-dependent manner by cells from seminal vesicles. These results suggest that testosterone 5 alpha-reductase activity is not expressed by osteoblasts in rat tibial periosteum and that the anabolic effects of androgens in this tissue are not mediated by locally produced DHT.
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PMID:Failure of isolated rat tibial periosteal cells to 5 alpha reduce testosterone to 5 alpha-dihydrotestosterone. 239 4

Sodium vanadate, an agent known to have multiple cellular actions, was studied for its effects on aspects of bone formation in cultures of 21-day-old fetal rat calvariae. Vanadate (0.1-10 microM) stimulated the incorporation of [3H] thymidine into acid-insoluble residues (DNA); the effect appeared after 3 h and was sustained for 96 h. Vanadate increased the bone DNA content and mitotic index. Treatment with vanadate at 10 microM for 24 h or at 0.3-1 microM for 96 h increased the incorporation of [3H]proline into collagenase-digestible protein (CDP), but the effect was not specific for collagen; vanadate also increased the labeling of noncollagen protein (NCP). Vanadate increased the incorporation of [3H]proline into type I collagen without affecting other collagen types. Vanadate (100 microM) caused a marked and irreversible inhibitory effect on the labeling of DNA, CDP, and NCP. Treatment with vanadate at multiple doses for 3-96 h did not stimulate alkaline phosphatase activity, but this enzyme was inhibited in bones exposed to 1 mM vanadate for 24 h or 10 microM vanadate for 96 h. The stimulatory effect on DNA labeling was primarily observed in the periosteum, while that on CDP labeling was seen only in the periosteum-free bone. These studies indicate that sodium vanadate stimulates bone DNA, collagen, and NCP syntheses in vitro, although high doses of vanadate have an irreversible inhibitory effect.
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PMID:Effect of sodium vanadate on deoxyribonucleic acid and protein syntheses in cultured rat calvariae. 257 50

Calvaria from 20-21 day old fetuses were obtained under sterile conditions and the endo- and exoperiosteum stripped off. Cells were dispersed by sequential collagenase-DNase treatment and suspended in 0.5% low Tm agarose in the presence of DMEM supplement with 10% FCS. After 4-5 days of incubation some 30% of these cells showed active synthesis of metachromatic extracellular matrix. Cells from skin, muscle and periosteum failed to show metachromatic matrix positive colonies to a comparable extent. The phenotypic expression of these cells was determined by analysis of collagen types. Eleven day old cultures were incubated in the presence of [3H]-proline plus beta-aminopropionitrile and ascorbic acid and the collagen extracted analyzed by polyacrylamide electrophoresis of their intact chains or CNBr-derived peptides. The results show that anchorage independence is a requirement for calvaria cells to express type II collagen. Type I collagen was preferentially expressed in monolayer culture or when pre-attached to a substrate before being cultured in agarose. Type II collagen was the predominant collagen when cells were cultured in agarose. Further characterization of cell populations was achieved by isopycnic centrifugation in a percoll gradient. Cell fractions were tested for their collagen phenotype when cultured in agarose. Cells recovered from densities 1.04 g/ml or higher synthesized type II collagen, while cells with densities lower than 1.04 g/ml synthesized mainly type I collagen. Isopycnic centrifugation appears to be a novel method for separation of phenotypically different cells from a heterogeneous population in fetal calvaria. The high density cell fractions may represent a mixture of pre-chondrocytes as well as pluripotential cells.
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PMID:Cells isolated from fetal rat calvaria by isopycnic separation express different collagen phenotypes. 271 31

We have developed a bone organ culture system that mineralizes in vitro. Fetal rat parietal bones (20 days old) were cultured in a chemically defined serum-free medium containing physiological 3 mM phosphate. During 5 days in culture, calcium content increased from 26 to 55 micrograms and dry weight increased from 137 to 194 micrograms. After 2 days in vivo, the calcium content of the parietal bone showed a comparable increase to 49 micrograms and dry weight increased to 183 micrograms. During culture, the mineralized bone area in thick sections increased from 11 to 23%, which paralleled the doubling in calcium content. Fluorescent calcein labeling during the 5 day culture period demonstrated that calcification occurs in an ordered pattern. Protein synthesis was assessed by measuring incorporation of [3H]proline into collagenase-digestible protein (CDP) and noncollagen protein (NCP). The percentage collagen synthesis decreased from 17.5% at 0 time to 5.0% at 2 days and then increased to 9.4% at 5 days of culture. Varying the inorganic phosphate concentration in the medium or adding beta-glycerol phosphate was found to affect mineralization. After 5 days in culture, bones treated with 1 mM phosphate exhibited a large region of unmineralized osteoid with only a 23% increase in calcium content compared with 112% in control (3 mM phosphate) bones and a 28% increase in dry weight compared with a 40% increase in control. Treatment for 5 days with 6 mM phosphate or 1, 3, or 10 mM beta-glycerol phosphate had no significant effect on dry weight compared to control bones. However, bone calcium content increased significantly from 55 +/- 5 micrograms in control cultures to 105 +/- 7 with 6 mM phosphate, 74 +/- 6 with 3 mM beta-glycerol phosphate, and 75 +/- 5 micrograms with 10 mM beta-glycerol phosphate. Calcified area measured by histomorphometry was also significantly greater than in control bones, but this was mainly due to ectopic calcification in the periosteum, representing from 23 to 74% of the total increase in calcified matrix in bones cultured with 6 mM phosphate or 1-10 mM beta-glycerol phosphate. Ultrastructural analysis demonstrated that ectopic calcification was associated with cell death and debris. Therefore, calcification with beta-glycerol phosphate and high concentrations of inorganic phosphate differed from mineralization in vivo or in bones cultured with a physiologically concentration of phosphate.
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PMID:In vitro mineralization of fetal rat parietal bones in defined serum-free medium: effect of beta-glycerol phosphate. 276 70


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