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)

Giant cell tumors of bone obtained from 7 patients were dispersed with clostridial collagenase and trypsin and adherent cells were maintained in culture. Early cultures contained both mononucleated and multinucleated cells presumably derived from the stromal and giant cells of the original tumor. The original multinucleated cells did not survive for greater than 7-10 days whereas the mononucleated cells persisted and could be passaged by trypsinization. In 5 of 7 early cultures exposed to parathyroid hormone (PTH) there was a rise in cAMP within 5-10 min in both cells and medium which averaged approximately 12-fold. None of the cells responded to calcitonin and a variable rise in cAMP was seen after incubation with prostaglandin E2. In cells cultured from 3 tumors the PTH response disappeared with passage of the cells, but in the remaining 2, PTH response persisted through multiple passages. The presence as well as the magnitude of the PTH-induced cAMP response in these cells is consistent with a skeletal origin.
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PMID:Response to hormones of cells cultured from human giant cell tumors of bone. 8

The effects of parathyroid hormone (PTH) and cyclic 3',5'-AMP (cyclic AMP) on calcium transport were studied in isolated bone cells. Bone cells were isolated by collagenase digestion of 20-21 day old fetal rat calvaria. Calcium transport was measured with 45Ca. PTH (0.2 mug/ml) increased calcium uptake 30--40% over control values at 37 C. At 4 C, the effects were magnified and 70--170% increases in calcium uptake were observed. The effects were present 1--10 minutes after the simultaneous addition of hormone and 45Ca. PTH had no effect on calcium efflux. Neither dibutyryl cyclic AMP (10(-4)-10(-3)M) nor cyclic AMP (10(-7)-3 X 10(-6)M) had any effect on calcium uptake or efflux. Methylisobutylxanthine (0.1 mM) caused no change in calcium uptake although increase in cyclic AMP were noted. The characteristic PTH-induced increase in cyclic AMP seen at 37 C was not observed at 4 C. It is postulated that PTH increases the permeability of bone cell membranes to calcium. At 4 C the membrane is relatively impermeable so the PTH effect is magnified. The PTH-induced increase does not appear to be mediated through cyclic AMP.
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PMID:Calcium transport in isolated bone cells. III. Effects of parathyroid hormone and cyclic 3',5'-AMP. 17 Nov 51

Five different cell populations, designated I to V, were isolated from minced newborn rat calveria by 5-sequential 20 min incubations with an enzyme mixture containing collagenase, elastase and DNAse. In primary culture, all five populations responded to parathyroid hormone (PTH) to a different degree, population IV giving the highest increase in cyclic-3'5'-adenosine monophosphate (cAMP) level. None of the five populations gave any response to calcitonin. Upon subsequent subcultures, all populations, except population IV, either lost or considerably decreased their response to PTH. Population IV gave a two to three-fold increase in cAMP concentration in response to PTH up to the third subculture. No morphological differences could be observed among the five populations. The third subculture of population IV cells that had been stored in 10% glycerol at -80C for four months was subsequently thawed and subcultured to the sixth subculture. These cells still responded to PTH with an increase in cAMP level. In a second experiment, 5 different cell populations designated I to V were isolated in a similar way by incubation with collagenase and DNAse. The maximum response to PTH was found in population 3. The preservation of the PTH-responsiveness of this population, after subculturing, freezing, storing in 10% glycerol at -80 C and subsequent subculturing, was likewise demonstrated. The hormone-responsiveness of cells from the sixth subculture of previously frozen and thawed population IV cells was further analyzed. These cells responded to PTH at a concentration of 0.1 U/ml to 5U/ml and to prostaglandin E1 (PGE1) at a concentration of 0.1 microng/ml to 10 microng/ml. The time course of action on population IV of PTH was found to be different from that of PGE1, suggesting a possible difference in the regulation of intracellular cAMP levels by these hormones.
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PMID:Parathyroid hormone- and prostaglandin E1-response in a selected population of bone cells after repeated subculture and storage at -80C. 19 Dec 37

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

We have developed a preparation of monolayer cultures of bovine parathyroid cells in order to elucidate the control mechanism of the biosynthesis and secretion of parathyroid hormone (PTH) at cellular level. Dispersion of parathyroid cells was performed by stirring minced bovine parathyroid tissues in Hanks' BSS containing 0.3 yields to 0.5 percent collagenase at 37 degrees C for 60 min. Dispersed cells were cultured at 37 degrees C in MEM-Hanks' BSS containing 10 percent fetal calf serum and 15 mM HEPES. On the 5th day of the culture, the medium was replaced with 1 percent BSA-MEM-Hanks-HEPES buffer, and the cells were incubated with 3H-leucine or in the media containing various concentrations of calcium, magnesium, PGE1, PGE2 or DBcAMP. At the end of incubation, the cells were detouched and homogenized in 8M urea, 0.2 N HCL and 0.01 M cysteine solution. The isolation of proparathyroid hormone (ProPTH) and PTH was performed through the preparation of TCA-powder followed by CMC column chromatography. PTH in the incubation medium was determined by radioimmunoassay. It was demonstrated that the monolayer cultures of bovine parathyroid cells were synthesizing ProPTH and converting it to PTH. The cultures exhibited linear secretion rates of PTH into the medium. The secretion of PTH was markedly increased by PGE1, PGE2 or DBcAMP in the range of 10(-7) yields to 10(-5)M in the former and 10(-5) yields to 10(-3)M in the latter, while calcium or magnesium changed secretion rate in the range of 0.3 yields to 4.4 mM.
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PMID:[Studies on the biosynthesis and secretion of parathyroid hormone in monolayer cultures of bovine parathyroid cells (I) (author's transl)]. 20 10

We have previously shown that bone cells possess glucocorticoid receptors and that, in addition to being inhibitory to cell growth, glucocorticoid treatment potentiates the ability of parathyroid hormone (PTH) to stimulate cyclic AMP (cAMP) formation. This study extends those observations to specific subpopulations of bone cells and explores the mechanism of the cAMP augmentation. Subpopulations of cultured bone cells derived from 20-d-old fetal rat calvaria were enriched for "osteoblast-like" (OB) and "osteoclast-like" (OC) cells by sequential collagenase digestion. OC cells released during the first 30 min of collagenase digestion were characterized by low alkaline phosphatase activity, a cAMP response to salmon calcitonin (CT), but only a small cAMP response to bovine PTH. In contrast, OB cells released between 30 and 120 min of collagenase digestion, possessed high alkaline phosphatase activity, responded with a large cAMP rise to PTH, but exhibited no response to CT. Glucocorticoid receptors, with similar properties, were demonstrated in both populations (K(d) congruent with 5 nM, N(maximum) congruent with 400 fmol/mg cytosol protein). Dexamethasone equivalently inhibited cell growth and alkaline phosphatase activity in both populations. Dexamethasone potentiation of cAMP generation occurred after PTH but not CT stimulation. A greater enhancement of cAMP generation observed in OB cells appears to result from two glucocorticoid actions: (a) stimulation of adenylate cyclase and (b) inhibition of phosphodiesterase. Only the latter mechanism was found in OC cells. Dexamethasone-treated cells showed an increase in both sensitivity and maximal response of cAMP to PTH. The possible relationship of these actions to the mechanism of glucocorticoid-induced osteopenia is discussed.
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PMID:Glucocorticoid receptors and actions in subpopulations of cultured rat bone cells. Mechanism of dexamethasone potentiation of parathyroid hormone-stimulated cyclic AMP production. 22 Feb 82

Cells isolated from fetal rat calvaria were cultured in a [14C]glycine-labeled collagen gel. This method of culture places the cells in an environment similar to that in the intact tissue and provides a means for assaying the release of collagenase from the cells. Degradation of the collagen matrix begins within the first 3 h of cell culture, the earliest time point at which samples were taken, and continues for at least 12 h. When cells were prepared from calvaria incubated for 30 min with parathyroid hormone (PTH), there was a marked decrease in the collagenase content of the freshly isolated cells, indicating that secretion of collagenase had been enhanced by PTH. Upon subsequent culture of control and PTH-pretreated cells, there was an increase in lysis of collagen gels surrounding the hormone-treated cells within 8 h. The increased collagenolysis was prevented by exposure of the cells to puromycin before and during culture, suggesting that collagenase synthesis also was stimulated by PTH.
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PMID:Parathyroid hormone stimulation of collagenase secretion by isolated bone cells. 22 Nov 85

A simple method to determine adenylate cyclase activity in isolated single nephron segments is described. Segments of the proximal convoluted tubule or the cortical collecting tubule were isolated from rabbit kidney slices pretreated with collagenase. After the tubule membranes were made permeable by adding hypotonic medium and freezing-thawing, each sample was incubated at 30 degrees C for 30 min in a medium containing ATP and theophylline. Generated cAMP was succinylated and served for radioimmunoassay. Addition of the incubation medium did not interfere the radioimmunoassay. Recovery of added cAMP was 96%. In the proximal convoluted tubule, either 8 mM NaF or 1 U/ml parathyroid hormone (PTH) markedly stimulated adenylate cyclase activity, but 1 mU/ml arginine vasopressin (AVP) did not. By contrast, in the cortical collecting tubule, either 8 mM NaF or 1 mU/ML AVP markedly stimulated adenylate cyclase activity, but 1 U/ml PTH did not. These data imply that this method is sensitive enough to detect either specific or nonspecific response of adenylate cyclase activity in single nephron segments.
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PMID:A simple method to determine adenylate cyclase activity in isolated single nephron segments by radioimmunoassay for succinyl adenosine 3',5'-cyclic monophosphate. 22 39

Cells obtained from male quail kidneys by digestion with collagenase and hyaluronidase were plated and maintained in a chemically defined, serum-free medium. Culture dishes (35 mm) were inoculated with 1.5 . 10(6) cells which became confluent in 5 days. The cells maintained an epithelial-like morphology over the entire culture period. During a 2 h incubation the cells metabolized 25--30% of the 10 nM 25-hydroxyvitamin D-3 (25-OH-D-3) provided. Seven metabolites were chromatographically separated on Sephadex LH-20. Three have been identified as 1 alpha, 25-dihydroxyvitamin D-3 (1,25(OH)2D-3), 24,25-dihydroxyvitamin D-3 (24,25(OH)2D-3) and 1 alpha, 24,25-trihhydroxyvitamin D-3 (1,24,25(OH)3D-3). The activities of the 25-OH-D-3:1 alpha- and 24-hydroxylases increased eight times faster than the cell number in 5 days. Preincubation of the cells with 10 nM 25-OH-D-3 or 1,25(OH)2D-3 decreased 1,25(OH)2D-3 synthesis, and increased both 24,25(OH)2D-3 and metabolite IV synthesis. The decrease in 25-OH-D-3:1 alpha-hydroxylase activity required a 2 h preincubation with 25-OH-D-3, while stimulation of 25-OH-D-3:24-hydroxylase activity and metabolite IV production required a 6 h preincubation. Incubations of cells for 1 h with parathyroid hormone resulted in a 30-fold increase in cyclic AMP in the medium. A 6 h preincubation with parathyroid hormone decreased 24,25(OH)2D-3) synthesis 50% relative to control cells. These results demonstrate the amenability of this system for studying the regulation of 25-OH-D-3 metabolism, as well as its use for other in vitro studies on renal cell function in a chemically defined culture system.
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PMID:Serum-free culture of Japanese quail kidney cells. Regulation of vitamin D metabolism. 22 48

Adenylate cyclase activity in particulate fractions from a transplantable rat osteogenic sarcoma was stimulated in a dose-dependent manner by prostaglandins E1 and E2 (PGE1 and PGE2) and parathyroid hormone (PTH). Prostaglandin F2alpha was active at a high concentration (3 x 10(-4) mol/l). Pretreatment of membranes with collagenase plus hyaluronidase reduced the magnitude of the PTH effect but did not affect the size of the PGE1 effect. Guanosine 5'-triphosphate and its synthetic analogue 5'-guanylylimidodiphosphate (Gpp(NH)p) activated adenylate cyclase in particulate preparations from the osteogenic sarcoma. The latter agent produced much larger effects, although the concentrations required for half-maximal enzyme activation were the same for both agonists (approximately 2 x 10(-6) mol/l). The effects of PTH and Gpp(NH)p were supra-additive at some concentrations of hormone. The effects of PGE1 and Gpp(NH)p were supra-additive at all hormone concentrations tested. Pre-incubation of membrane particles for 6 min with PTH produced an enzyme activation which was not reversed by dilution through washing; pre-incubation with PGE1 did not produce this effect. The response of membrane adenylate cyclase to Gpp(NH)p (10(-4) mol/l) was 75% greater in preparations pre-incubated with PTH than in membranes pre-incubated in buffer alone or in buffer containing PGE1. The basal rate of cyclic AMP production in the adenylate cyclase assay system decreased over a 35 min incubation period. This decrease was prevented by addition of PTH or PGE1. Addition of NaF or Gpp(NH)p produced a steady increase in the rate of production of cyclic AMP with time. Membrane preparations did not reduce the biological activity of PTH and did not degrade 125I-labelled PTH. The results demonstrate that the PTH- and PGE-responsive adenylate cyclases of the osteogenic sarcoma have distinctly different properties and that particulate preparations of the tumour do not metabolize PTH.
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PMID:Membranes from a transplantable osteogenic sarcoma responsive to parathyroid hormone and prostaglandins: regulation of adenylate cyclase and of hormone metabolism. 27 36

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