EC:3.4.24.3 - FACTA Search

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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)

A primary culture method was established by comparing the different effects of four methods of enzymatic separation--trypsin, collagenase with and without trypsin pretreatment, and a trypsin-collagenase mixture--and five media: DMEM, DMEM and Ham's F 12 mixture, F 12, RPMI 1640 and Medium 199. The trypsin pretreatment/collagenase method was most preferable considering the high number of isolated cells, satisfactory adhesion, good growth and a single population at subconfluence. DMEM and the DMEM/F-12 mixture resulted in the best adhesion, cell growth and cell number at confluence. Primary cells separated by the trypsin pretreatment/collagenase method and cultured in DMEM were responsive to parathyroid hormone at the proliferating stage and had higher alkaline phosphatase activity than cells cultured from gingiva and mucosa after reaching confluence. The long-term cultured cells formed nodules that were slightly mineralized. These results indicate that the cultured pulp cells had properties characteristic of pulp cells in vivo. This enzymatic separation method may be useful in studies of the regulation of pulp metabolism and odontoblast differentiation.
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PMID:Establishment of primary cultures of pulp cells from bovine permanent incisors. 166 Feb 58

We have established mutant SaOS-2 cell lines that express a cyclic AMP (cAMP)-resistant phenotype to investigate the regulation and functional importance of orthophosphoric-monoester phosphohydrolase alkaline optimum (ALPase) in the action of parathyroid hormone (PTH). Cells were stably transfected with a plasmid that directs the synthesis of a mutant form of the type I regulatory subunit of protein kinase A (PKA) under the control of the metallothionein promotor. There was no significant difference between parental SaOS-2 cells and the mutant lines in the affinity or number of receptors for 125I-Nle8,18Tyr34bPTH1-34NH2, either in the absence or presence of Zn2+. When cAMP-dependent gene transcription was examined using transient transfection with a somatostatin promoter-chloramphenicol acetyl transferase (CAT) reporter plasmid, CAT activity stimulated by human PTH and dibutyryl cAMP (DBcAMP) was inhibited by greater than 90% in the presence of Zn2+ in the mutant cell lines. In contrast, activation by a phorbol ester of a pentameric collagenase promoter/CAT construct containing five tandem copies of the AP-1 response element (5x-TRE-CAT) was unaffected in Zn(2+)-treated mutant cells. The inhibitory actions of PTH and DBcAMP on ALPase release were blunted by up to 80-90% in the mutant cell lines in the presence of Zn2+; there were no significant differences in the magnitude of inhibitory effects between these agonists. We conclude that the inhibitory action of PTH on ALPase release in SaOS-2 cells is mediated via activation of PKA. These cAMP-resistant cell lines will be especially useful in elucidating signal transduction mechanism(s) for PTH in human osteoblastic cells.
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PMID:Protein kinase A-dependent inhibition of alkaline phosphatase release by SaOS-2 human osteoblastic cells: studies in new mutant cell lines that express a cyclic AMP-resistant phenotype. 166 91

Proteolytic enzymes acting at physiologic pH (neutral proteases) are involved in both the formation and modeling of new bone and the remodeling of mature bone. In endochondral ossification systems such as growth-plate calcification, fracture healing, osteophyte formation, and demineralized bone matrix-induced osteogenesis, neutral proteases are predominantly involved in modifying proteins and proteoglycans in the extracellular matrix in preparation for calcification. These enzymes are of low molecular weight (below 30,000 Mr), are poorly charged, metal ion dependent, and appear to become active only after being released from chondrocytes. These neutral proteases may be distributed to the extracellular matrix in association with matrix vesicles that are derived from chondrocyte plasma membranes. A similar mechanism of calcification may also exist during malignant osteogenesis in an osteosarcoma; however, the cell producing the neutral protease in this lesion is the osteoblast and the matrix being synthesized is osteoid. In remodeling bone, osteoblasts secrete neutral collagenase (as an inactive enzyme) and produce not only additional proteases capable of activating the collagenase but also a collagenase inhibitor. Osteoblast collagenase or neutral protease may act to remove unmineralized osteoid from bone surfaces, thus facilitating its subsequent degradation by osteoclasts. The production of all these factors by osteoblasts appears to be regulated by calciotropic hormones (e.g., parathyroid hormone, 1,25-dihydroxyvitamin D, and calcitonin), possibly in a concerted fashion. Other possible functions of neutral proteases involve direct actions on cells or on specific molecules (growth factors) residing in the extracellular matrix.
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PMID:Neutral proteases in regenerating bone. 184 59

We examined the interaction of parathyroid hormone (PTH) and recombinant human insulin-like growth factor I (IGF-I) on collagen synthesis in 21-day fetal rat calvariae as assessed by measuring the incorporation of [3H]proline into collagenase-digestible protein. After 96 hours of culture, 10 nM PTH antagonized the stimulation of collagen synthesis and partially blocked the increase in dry weight produced by 10 nM IGF-I. The effect of PTH to block IGF-I stimulated collagen synthesis was observed in the central bone of calvariae and was mimicked by forskolin and phorbol 12-myristate 13-acetate, but not by 1,25-dihydroxyvitamin D3, transforming growth factor-alpha or dexamethasone. Our data are consistent with the concept that the direct effect of PTH is to inhibit basal CDP labeling and fully oppose IGF-I stimulated CDP labeling. The finding that this effect of PTH is mimicked by forskolin and PMA suggests that this block in IGF-I stimulation of CDP labeling involves both cAMP and protein kinase C mediated pathways.
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PMID:Parathyroid hormone blocks the stimulatory effect of insulin-like growth factor-I on collagen synthesis in cultured 21-day fetal rat calvariae. 196 62

Previous studies demonstrated that tetracyclines (TCs) inhibited Type I (interstitial) and Type IV collagenases from different mammalian sources, but there are no studies of TCs effect on osteoblast collagenase (C'ase). The present study assessed the effect of TCs on C'ase activity from osteosarcoma cells. Semiconfluent UMR 106-01 cells were treated with minocycline or chemically modified tetracycline (CMT) at 10 micrograms/ml in the presence or absence of bovine parathyroid hormone, b-PTH-(1-34), at 10(-7)M for 24, 48, 72 and 96 hours. Media were collected at each time point and assayed following concentration, destruction of TIMP by reduction/alkylation, activation with p-aminophenylmercuric acetate (APMA), and incubation with 3H-methylated collagen substrate (approximately 100,000 dpm) at 27 degrees C for 18 hours. Collagenase activity from media was also analyzed by SDS-PAGE and fluorography. b-PTH appeared to stimulate C'ase 60-fold compared to controls; minocycline and CMT reduced PTH stimulation approximately 65% and 90%, respectively. Moreover, TCs incubated with partially purified osteoblastic collagenase directly, inhibited its activity in vitro as indicated by a lack of degradation to collagen alpha A chains. Therefore, TCs ability to inhibit bone resorption in organ culture, reported previously, may be due, in part, to reduced osteoblast collagenase activity.
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PMID:The effect of tetracyclines on collagenase activity in UMR 106-01 rat osteoblastic osteosarcoma cells. 196 17

The purpose of the present study was to determine whether cyclically applied tension stimulates osteoblast-like cells to produce collagenase as well as parathyroid hormone (PTH) does. Experimental evidences suggest that osteoblast growth can be altered by various extrinsic control factors, including continuous and intermittent mechanical forces. In the present study, morphological change and collagenase synthesis were observed for both cultures that were added PTH and under the periodic tension condition applied on osteoblast-like cells and their parallel controls. periodic tension was used because it was thought to more closely mimic the in vivo functional situation. An initial seeding density of 50,000 cells/well was used for both the PTH stimulated and mechanically stimulated cells and their controls. For the mechanically stimulated cultures, the cells were subjected to the following tension/relaxation combination; 3 cycles/minute at 17% elongation of tensional force. The cells were fixed at 24, 72, and 120 hours after the start of experiments and collagenase was stained immunohistochemically. The following results were obtained: 1. PTH stimulated collagenase production from the first through the fifth day; 2. Periodic tension changed cell morphology from round to stellate; and 3. Periodic tension increased collagenase production from the first through the fifth day.
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PMID:[Effect of PTH and periodic tension on osteoblast-like cells for collagenase synthesis]. 196 54

Effects of transforming growth factor (TGF)-beta, epidermal growth factor (EGF), insulin, 1, 25-dihydroxyvitamin D3 (1, 25 (OH)2D3), and parathyroid hormone (PTH) on the proliferation and differentiation of clonal dental pulp cells of rats were investigated. Interaction between growth factors (TGF-beta and EGF) and two hormones insulin and 1, 25 (OH)2D3, which have been noticed to accelerate the differentiation of the cells, were also studied, and the following results were obtained: 1) TGF-beta decreased alkaline phosphatase (ALPase) activity in a dose-dependent manner, and the inhibitory effect was not blocked by indomethacin, suggesting that the effect of TGF-beta on the cells may not be mediated by prostaglandins. Inhibitory effects of ALPase antagonists (L-phenylalanine, L-homoarginine, levamisole) on the activity were not affected by TGF-beta. TGF-beta showed no evident effect on the DNA synthesis (incorporation of [3H] thymidine) and collagen synthesis (incorporation of [2, 3-3H] proline into the collagenase-digestible protein) of the cells. 2) EGF stimulated the incorporation of [3H] thymidine and inhibited the ALPase activity. The inhibitory effect was not blocked by indomethacin, indicating that the EGF effect is not mediated by prostaglandins. Collagen synthesis was significantly inhibited by EGF. 3) Insulin showed a weak but significant inhibition of the DNA synthesis. Insulin increased the ALPase activity evidently, and accelerated the collagen synthesis significantly. 4) The vitamin 1, 25 (OH)2D3 significantly increased the ALPase activity though no significant changes were observed in the DNA synthesis and collagen synthesis. 5) PTH had no evident effect on the DNA synthesis and ALPase activity, but did tend to accelerate the collagen synthesis. 6) A study on the interaction between insulin and EGF or TGF-beta revealed that the acceleration of DNA synthesis induced by EGF was inhibited when the factor was combined with insulin, and the increase in ALPase activity elicited by insulin was inhibited by EGF and weakened by TGF-beta significantly when these factors were added simultaneously with the insulin. Or viewed another way, the inhibitory effect of EGF or TGF-beta on the ALPase activity was antagonized by insulin. The accelerative action of insulin on collagen synthesis was antagonized by EGF and potentiated by TGF-beta. 7) A study on the interaction between 1, 25 (OH)2D3 and EGF or TGF-beta revealed that 1, 25 (OH)2D3 inhibited the accelerating effect of EGF on the DNA synthesis and that the increasing effect of 1, 25 (OH)2D3 on ALPase activity was strongly inhibited by EGF.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Effects of various growth factors and hormones on clonal rat pulp cells]. 213 79

Cells were isolated by sequential collagenase digestion from the parietal segments of one day old mice (Swiss albino BNL strain) and characterized for osteoblast parameters by alkaline phosphatase histochemistry and bovine parathyroid hormone (bPTH-(1-34] induced cAMP activity (protein binding assay). Phenytoin (DPH) reduced PTH stimulated cAMP activity nearly 3-fold in the presence and nearly 1.5-fold in the absence of added calcium. In the absence of PTH, DPH exerted no significant effect. Bay-K-8644, a calcium channel activator, appeared to approximate the PTH stimulation of cAMP activity, even in the presence of DPH. This study demonstrates that DPH has a direct effect on PTH stimulated cAMP activity in cultured murine osteoblasts.
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PMID:The effect of phenytoin on parathyroid hormone stimulated cAMP activity in cultured murine osteoblasts. 215 57

Avian cartilage cells derived from epiphyseal growth-plate and avian skin fibroblasts were cultured in vitro. Production of cAMP by cartilage cells was stimulated by the synthetic fragments (1-34) of chicken (cPTH), human (hPTH) parathyroid hormone and by parathyroid hormone-related peptide (PTHrP). The enhancement of cAMP production by any of the peptides could be blocked by the parathyroid hormone analogue (3-34)PTH, suggesting interaction with PTH specific receptors. When incubated with [3H]proline, both cell types released radiolabelled collagenase-digestible and non-digestible proteins into the medium. cPTH, hPTH, PTHrP, forskolin, prostaglandin E2 (PGE2) and 8-bromo cAMP inhibited collagen production in cartilage cells with only minor effects on non-collagenase digestible proteins. No effect of cAMP on collagen production by fibroblasts was observed. The present results provide additional evidence that avian growth-plate cartilage cells are targets for PTH, and are first to demonstrate the response of a non-mammalian system to mammalian PTHrP. The data suggest that collagen production by epiphyseal growth-plate cartilage cells is inhibited by PTH and that this inhibition is mediated by cAMP.
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PMID:Cyclic AMP-dependent inhibition of collagen synthesis in avian epiphyseal cartilage cells: effect of chicken and human parathyroid hormone and parathyroid hormone-related peptide. 215 17

Phenytoin (PHT), a widely used anticonvulsant, has been shown to inhibit bone resorption in rodent organ cultures. The drug also has complex effects on bone metabolism including chronic clinical symptoms of osteomalacia. However, the precise mechanism of PHT action in bone is still unclear. Neutral collagenases that specifically cleave native collagen have been implicated in the turnover of connective tissue. The effect of PHT was assessed on collagenase and gelatinase activities from UMR 106-01 rat osteoblastic osteosarcoma cells. Semiconfluent cells were treated with PHT (50 and 10 micrograms/ml) in the presence of bovine parathyroid hormone, b-PTH-(1-34), at 10(-7) M for 24, 48, 72 and 96 h. The media were assayed following concentration, APMA activation, and incubation with native or denatured [3H]-methyl collagen substrate (approximately 100,000 dpm) at 27 degrees C for 18 h and 35 degrees C for 2 h, respectively. Enzyme activities were presented as primary counts per minute for each time point and calculated as % activity of PTH at 10(-7) M. Parathyroid hormone (10(-7) M) stimulated collagenase activity (approximately 65-fold) and gelatinase activity (approximately 400-fold). PHT (50 micrograms/ml) reduced the PTH-stimulated collagenase activity by 18-53% and the gelatinase activity by 58-72%. SDS PAGE and fluorography following PHT treatment indicated a PHT-induced partial inhibition of PTH-stimulated degradation to alpha A chains of Type I collagen. Phenytoin may inhibit bone resorption through its action on the transcription, synthesis, and/or secretion of the collagenolytic enzymes, collagenase and gelatinase.
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PMID:The effect of phenytoin on collagenase and gelatinase activities in UMR 106-01 rat osteoblastic osteosarcoma cells. 216 99

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