EC:3.2.1.31 - FACTA Search

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)

The effect of N6,O2'-dibutyryl adenosine 3',5'-cyclic-monophosphate (dbcAMP) on the mobilization of calcium (Ca2+), inorganic phosphate (Pi) and lysosomal enzymes was studied in a bone culture system for 24 h using half calvaria from 6--7 day-old mice. DbcAMP inhibited spontaneous as well as parathyroid hormone-stimulated mineral mobilization. DbcAMP in a concentration of 5 x 10(-4)M also reduced the activities of beta-glucuronidase, beta-galactosidase and acid phosphatase found in the media while the activities of lactate dehydrogenase, aspartate aminotransferase and alanine aminotransferase were not affected. It is concluded that cAMP is not a stimulator but an inhibitor of bone resorption within the culture period studied (24 h) and that the cyclic nucleotide might interfere with release processes involved in bone resorption.
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PMID:Inhibitory effect of dibutyryl cyclic AMP on the release of calcium, inorganic phosphate and lysosomal enzymes from calvarial bones cultured for 24 hours. 22 6

beta 2-Microglobulin (beta 2M) polymerizes to form amyloid fibrils that deposit and cause destructive bone lesions in patients on chronic dialytic therapy. beta 2 M is mitogenic to osteoblasts; however, its effect on bone mineralization is unknown. To determine whether beta 2M causes bone demineralization, neonatal mouse calvariae were incubated with and without beta 2M, and net calcium flux was calculated. Following a 48-h but not 3- or 24-h incubation, beta 2M (10(-8)-10(-6) M) induced a net calcium efflux. The efflux was similar to that observed with 10(-10) M parathyroid hormone (PTH) but less than that observed with 10(-8 M PTH. Devitalizing the calvariae resulted in a net calcium influx that was unaffected by the addition of beta 2M, indicating a cell-mediated phenomenon. The release of beta-glucuronidase, an osteoclast enzyme, increased after a 48-h but not a 24-h incubation with beta 2M. Calcitonin, an osteoclast inhibitor, blocked the beta 2M-induced calcium efflux and beta-glucuronidase release, suggesting osteoclast involvement. Thus beta 2M induces a dose- and time-dependent, cell-mediated calcium efflux from neonatal mouse calvariae that involves osteoclast stimulation.
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PMID:Beta 2-microglobulin induces calcium efflux from cultured neonatal mouse calvariae. 141 83

The specific inhibitor of protein kinase C, 1-O-alkyl-2-O-methylglycerol (AMG), was studied for its effect on bone resorption, measured as 45Ca-release, in fetal mouse calvariae. AMG (1 to 50 microM) had no effect on basal bone resorption. AMG inhibited parathyroid hormone (40 nM) induced bone resorption in a dose-dependent manner. Resorption induced by 1,25 (OH)2-vitamin D3 (10 nM) or prostaglandin E2 (5 microM) was also inhibited by AMG. The release of beta-glucuronidase activity paralleled the course of the 45Ca-release. The production of interleukin 6, induced by parathyroid hormone, in fetal rat calvarial osteoblasts was not affected by AMG. AMG (1 to 50 microM) had no cytotoxic effects on cells or calvariae. From these results it is concluded that protein kinase C may have an important role in the regulation of bone resorption.
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PMID:Role of protein kinase C (PKC) in bone resorption: effect of the specific PKC inhibitor 1-alkyl-2-methylglycerol. 159 Jul 94

Bone resorption plays an important role in bone modeling and remodeling. Osteoclasts are the cells responsible for the bone resorption. Osteoclasts are located on endosteal bone surfaces and on the periosteal surface beneath the periosteum. They are multinucleated giant cells highly polarized in their morphology and function. Among the proximal surface, the membrane and the area of the cytoplasm directly oppose to the bone surface, which are specialized into two regions. A central region consisting of many irregular cytoplasmic processes and infoldings, the ruffled border, is known to be the active site of bone resorption. Surrounding the ruffled border, a second region, the clear zone provides an area of close attachment to the mineralized bone surface. The osteoclasts secrete a large amount of protons by the action of H(+)-pump on the ruffled border into the sealed resorption cavity, resulting in the acidified microenvironment under which condition the bone matrix is dissolved. Protons are provided by the intracellular action of carbonic anhydrase. Following the secretion of the protons, several ion-transporting systems, i.e., carbonate-chloride exchanger, chloride-channel, Ca(2+)-transport systems, Na+/K(+)-ATPase, and voltage-dependent Ca(2+)-channel, are sequentially operated on both apical and basolateral cytoplasmic membranes. In addition, osteoclasts contain a large amount of lysosomal enzymes (cathepsin C, beta-glycerophosphatase, beta-glucuronidase, etc.), which contribute to degrade the bone organic matrices exposed in the resorption cavity. These enzymes bind to the mannose-6-phosphate receptor on Golgi apparatus, are transported to the ruffled border and are secreted into the extracellular compartment in an exocytotic manner. Osteoclasts also have a high tartrate-resistant acid phosphatase activity which is currently used as a marker enzyme osteoclastic differentiation. Osteoclasts are considered to develop from hematopoietic stem cells. So far, the following four different pathways of the differentiation of osteoclast are proposed: The precursors of osteoclast develop (1) from multilineage hematopoietic cells via a completely separate differentiation line, (2) from granulocyte macrophage-colony forming cells, (3) from committed but proliferative monocyte-macrophage, and (4) from mature and unproliferative monocyte-macrophage. However, the differentiation line of the osteoclasts has still to be elucidated. The formation of osteoclasts as well as that of other hematopoietic cells is strongly regulated by many cytokines [interleukin (IL)-1,IL-3,IL-6, M-colony stimulating factor (CSF), and GM-CSF]. 1,25-Dihydroxyvitamin D3 and parathyroid hormone also stimulate the differentiation of osteoclast precursors. However, the mature osteoclasts do not possess the receptors for these hormones.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Osteoclasts in bone metabolism]. 175 56

Gallium nitrate (GN) is an agent used in the treatment of hypercalcemia. To more fully characterize the direct actions of GN on bone, we examined its effects on medium calcium, medium beta-glucuronidase (beta-GLU), and collagen synthesis in control and hormone-stimulated neonatal (4-6 days) mouse calvariae in vitro. GN (10 micrograms/ml) inhibited parathyroid hormone-stimulated (PTH; 1 nM) calcium release. A 24 h preincubation with 10 micrograms/ml of GN was required for complete inhibition; partial inhibition was seen with 12 h preincubation; 1, 3, or 6 h was inadequate. A dose-response study showed that with 24 h preincubation, 5, 3, and 1 microgram/ml of GN inhibited 81, 62, and 0% of PTH-induced calcium release. The effects of GN on the release of beta-GLU generally paralleled those on the release of calcium except that 10 micrograms/ml of GN stimulated beta-GLU release. Collagen synthesis was inhibited 50% by 3 micrograms/ml of GN, whereas noncollagen protein synthesis was unaffected. With PTH + GN no further decrease was observed. When GN was withdrawn from the medium after 24 h of preincubation, the inhibitory effect on calcium release and beta-GLU activity, but not on collagen synthesis, persisted through the 72 h of culture. GN also inhibited the resorption elicited by thyroxine (1 microM) and interleukin-1 beta (10 nM) but not by 1,25-dihydroxyvitamin D3 (30 pM). Our results indicate that GN is a powerful inhibitor of bone resorption in neonatal mouse calvariae even at low doses.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Gallium nitrate inhibits bone resorption and collagen synthesis in neonatal mouse calvariae. 179 59

Bone resorption in a modified bone culture system, based on incubation of small fragments from neonatal mouse calvarial bones, has been studied. Four bone fragments were dissected out from each mouse calvaria and were thereafter cultured in CMRL 1066 medium in plastic multiwell dishes. Bone resorption was assessed by 45Ca release from prelabeled bones. The rate of bone resorption in response to parathyroid hormone (PTH) was less in the anterior part of the calvaria compared to the posterior part. After removing the anterior region, four parietal bone fragments that showed identical basal and PTH-stimulated release of 45Ca could be dissected out from each mouse. Excretion of lactate dehydrogenase and beta-glucuronidase was the same in bones cultured submerged or on grids. Uptake of [3H]thymidine in bones cultured submerged was 54% of [3H]thymidine uptake in bones cultured on grids. Dose-response curves, established by using parietal bone fragments, showed that the sensitivity and the magnitude of the increase in 45Ca release seen after stimulation with PTH, prostaglandin E2, and 1 alpha-hydroxyvitamin D3 were the same for bones cultured submerged or on grids. The 45Ca release in response to stimulation with PTH, prostaglandin E2, and 1 alpha-OHD3 was the same in calvarial fragments cultured submerged and those previously obtained with calvarial halves cultured on grids. Thus, even though the rate of DNA synthesis was slower in bones cultured submerged, the rate and the magnitude of resorption were the same in bones cultured on grids or submerged. These data show that it is possible to perform studies on bone resorption with small fragments of neonatal mouse parietal bones.
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PMID:In vitro studies on bone resorption in neonatal mouse calvariae using a modified dissection technique giving four samples of bone from each calvaria. 188 17

The effect of glucocorticoids on bone resorption was examined in a serum-free mineralizing organ culture system derived from 20 day fetal rat parietal bones. Bone resorption was assessed by prelabeling the fetal rats in utero with 45Ca and determining the daily release of 45Ca into the medium of cultured bones. During the first 24 h of treatment a transient stimulation of bone resorption was found; 4.5 +/- 0.3% of the total 45Ca was released into the medium with 1 nM corticosterone and 4.1 +/- 0.2% with 10 nM corticosterone compared to 2.9 +/- 0.2% in control bones. Treatment with 1 and 10 nM dexamethasone for 24 h also showed an increase in 45Ca release compared to control bones. During the same time period 45Ca release was 6.9 +/- 1.4% with 10 nM parathyroid hormone. At later time points 100 and 1000 nM corticosterone inhibited 45Ca release, but 1 and 10 nM corticosterone values were similar to controls. At 24 h the number of osteoclasts per mm2 tissue in bone lacunae was significantly elevated with 1-100 nM corticosterone and 10 nM parathyroid hormone compared to control bones. In control bones 0.10 +/- 0.05 osteoclasts per mm2 of tissue were found, but 0.59 +/- 0.21 osteoclasts per mm2 were seen with 10 nM corticosterone and 1.50 +/- 0.34 with 10 nM parathyroid hormone. An additional assay of bone resorption, the release of lysosomal beta-glucuronidase into the medium was also elevated in glucocorticoid and parathyroid hormone-treated cultures.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glucocorticoids stimulate resorption in fetal rat parietal bones in vitro. 212 6

Aluminum has been shown to increase unidirectional 45Ca efflux from prelabeled bones in vitro; whether aluminum affects net calcium efflux and, if so, by what mechanism has not been studied. To examine the effects of aluminum on net calcium flux from bone we cultured live and dead neonatal mouse calvariae with and without graded concentrations of aluminum (10(-8) to 10(-5) M). Aluminum induced a dose-dependent net calcium efflux from live bone after 24 h, but not 3 h, which was similar in magnitude to that produced by 10(-8) M parathyroid hormone. The normal calcium influx into dead bone was not altered by aluminum. Release of beta-glucuronidase, a lysosomal enzyme released by osteoclasts, increased after a 24-h incubation in aluminum-containing medium and was correlated with net calcium efflux. Calcitonin, an inhibitor of osteoclastic bone mineral dissolution, abolished the increase in beta-glucuronidase release and nullified the aluminum-induced net calcium efflux. Thus aluminum induces cell-mediated net calcium efflux from bone and increases beta-glucuronidase release. Calcitonin inhibits the increase in both calcium efflux and beta-glucuronidase release, suggesting that aluminum stimulates osteoclasts to release bone mineral.
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PMID:Mechanism of aluminum-induced calcium efflux from cultured neonatal mouse calvariae. 231 67

The effect of prostaglandin E2 (PGE2) on the kinetic of bone resorption in vitro was assessed by following the release of minerals and degradation of matrix in cultured mouse calvarial bones. PGE2 (1 and 3 mumol/liter) caused an initial inhibition of the release of 45Ca, stable calcium, and inorganic phosphate from unstimulated calvarial bones. The effect was transient and after 24 and 48 hours the release of 45Ca, stable calcium, and inorganic phosphate from PGE2-treated bones was enhanced. 0.3 mumol/liter of PGE2 stimulated the release of 45Ca after 24 hours, but at this concentration no initial inhibition was observed. The initial inhibitory effect of PGE2 (1 mumol/liter) could be further increased by three structurally different inhibitors of cyclic AMP breakdown. PGE2 (1 mumol/liter) caused not only an initial inhibition of mineral release but also an initial inhibition of matrix degradation, as assessed by the release of 3H from [3H]-proline labeled bones. In addition, PGE2 (3 mumol/liter), in the presence of the phosphodiesterase inhibitor isobutylmethylxanthine, caused a rapid (6 hours) inhibition of the release of the lysosomal enzymes beta-glucuronidase and beta-N-acetyl-glucosaminidase, without affecting the release of the cytosolic enzyme lactate dehydrogenase. Similar specific initial inhibition of lysosomal enzyme release was also seen in the presence of calcitonin and dibutyryl cyclic AMP, but not in the presence of parathyroid hormone (PTH). Neither PGE2 nor the phosphodiesterase inhibitors rolipram and Ro 20.1724, could inhibit the initial stages of PTH-induced 45Ca release. Nor did PGE2 inhibit the stimulation of radioactive calcium mobilization induced by 1 alpha (OH)-vitamin D3.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prostaglandin E2 causes a transient inhibition of mineral mobilization, matrix degradation, and lysosomal enzyme release from mouse calvarial bones in vitro. 244 May 32

Agents that act as anion channel blockers (ACBs) and do not permeate cells appear to inhibit exocytosis in platelets, parathyroid cells, and neutrophils. Based in large part on these observations, anion influx through plasma membrane channels has been considered a factor controlling cellular secretion, but there have been no direct anion influx measurements in cells or granules to support this concept. We have found that ACBs inhibit only thrombin-induced platelet secretion, not secretion induced by ADP, collagen, or A23187. ACBs inhibit thrombin esterolytic activity, binding of thrombin to platelets, and thrombin-stimulated platelet production of malondialdehyde in proportion to the degree of inhibition of thrombin-induced platelet secretion. Thus inhibition of platelet secretion by ACBs is due to inactivation of the stimulatory agonist, thrombin, and not to interference with cellular secretion per se. We have also found that previously reported inhibition of secretion of parathyroid cells and neutrophils by ACBs can be explained by the ability of ACBs to interfere with detection of the cellular secretory products that were measured to assess exocytosis. Our measurements of parathyroid hormone and beta-glucuronidase in the presence of ACBs were reduced to the same degree as the reported reduction in apparent cellular secretion produced by these agents. We conclude that plasma membrane anion channels of the type that can be blocked by ACBs such as 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid, 4-acetamido-4'-isothiocyanatostilbene-2,2'-disulfonic acid, suramin, and probenecid do not participate in cellular secretory processes. Whether other types of anion channels exist that are not affected by these ACBs and whether there are mechanisms of anion flux during secretion not dependent on channels remain open questions.
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PMID:Anion channel blockers cause apparent inhibition of exocytosis by reacting with agonist or secretory product, not with cell. 247 20

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