Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.1 (alkaline phosphatase)
 47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have shown previously that the decreased trabecular bone formation in osteoporotic postmenopausal women results from a reduced ability of osteoblastic cells to proliferate. In this study we have tested the possibility that bone cells from osteoporotic women with low bone formation have an abnormal responsiveness to hormonal or local mitogenic factors. Primary cultures of bone cells with osteoblastic characteristics were obtained by migration from the trabecular bone surface in osteoporotic postmenopausal women with high (n = 7) or low (n = 7) bone formation as evaluated histomorphometrically by the extent of double tetracycline-labeled surface (DLS). Control bone cells were obtained under identical conditions from eight normal age-matched postmenopausal women. Parameters of osteoblastic differentiation (alkaline phosphatase activity and osteocalcin production) were found to be normal and similar in bone cells from osteoporotic women with low or high DLS. In contrast, cell replication as evaluated by [3H]thymidine into DNA was 3.4-fold lower in the low DLS group compared to the high DLS group, confirming our previous findings. Treatment of quiescent bone cells with TGF-beta (0.5-1 ng/ml) for 24 h significantly stimulated DNA synthesis in osteoblastic cells from normal women and in bone cells from osteoporotic patients with low or high DLS, indicating a normal responsiveness to TGF-beta in these patients. We have compared the effect of parathyroidhormone (PTH) on bone cells from normal and osteoporotic women. Basal cAMP levels and the cAMP accumulation in response to (1-34)-hPTH were similar in bone cells from patients with low or high DLS and were not different from normal values.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Bone cell responsiveness to transforming growth factor beta, parathyroid hormone, and prostaglandin E2 in normal and postmenopausal osteoporotic women. 217 73

The human osteosarcoma cell line MG-63 has been used to study the production of the bone-specific protein, osteocalcin. In the absence of any stimuli, MG-63 cells secreted very low levels of osteocalcin. The secretion of osteocalcin started after a lag time of 10-12 h upon 1,25-(OH)2D3 treatment. Osteocalcin secretion was measured at doses as low as 0.03 nM (fourfold increase, p less than 0.05), and this activity increased further with higher doses of 1,25-(OH)2D3 to reach a plateau at 50 nM. The secretion increased transiently from very low levels in sparse cell cultures to peak values in subconfluent cultures (+/- 40%), two- to threefold above values obtained for confluent cells. Values for confluent cells average 55.9 +/- 2.0 ng/ml protein per 48 h. A similar behavior is observed for 1,25-(OH)2D3 receptor concentration under similar experimental conditions. Bmax increased transiently from sparse to subconfluent cell cultures (40-60% confluent) and reached values 50% lower in confluent cells. However, the receptor affinity was not affected by cell density. MG-63 cells also possessed an alkaline phosphatase isoenzyme of the bone-liver-kidney type that was stimulated by 1,25-(OH)2D3 treatment (two- to threefold) and inhibited by parathyroid hormone (40 nM, -25%, p less than 0.025). PTH and PGE2 increased cAMP production in a dose-dependent manner, but the cells were irresponsive to salmon calcitonin. Basal and PTH-responsive cyclic AMP production were also modulated by cell density. Dexamethasone pretreatment (100 nM, 48 h) stimulated the PTH-dependent cAMP production but failed to influence the response to PGE2.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Osteocalcin secretion by the human osteosarcoma cell line MG-63. 217 53

We have investigated the actions of human PTH [hPTH-(1-34)] on the association of 45Ca2+ with two human (SaOS-2 and MG-63) and two rat (ROS 17/2.8 and UMR-106) osteoblast-like cell types. In SaOS-2 cells, hPTH-(1-34) binds to specific membrane receptors to activate adenylate cyclase. Treatment of SaOS-2 cells with hPTH-(1-34) resulted in an increase in 45Ca2+ uptake, in a dose-dependent fashion, up to 2- to 4-fold above control values. The increase was first evident at 10 min and persisted for at least 30 min. Treatment with nimodipine, a calcium channel antagonist, was without effect on the stimulatory action of PTH. A similar enhancement of cell-associated 45Ca2+ was observed when the cells were incubated with vasoactive intestinal peptide, which acts via different receptors to activate adenylate cyclase in SaOS-2 cells. Treatment with (Bu)2cAMP also induced an increase in cell-associated 45Ca2+. Pretreatment of SaOS-2 cells with hPTH-(1-34) for 4 h, which induced homologous desensitization to a second challenge with the same peptide for stimulation of cAMP production, did not attenuate the further enhancement of cell-associated 45Ca2+ by a second treatment with hPTH-(1-34). We then examined a possible relationship between alkaline phosphatase (ALPase) and 45Ca2+ uptake. SaOS-2 cells contained high levels of alkaline phosphatase activity and continuously released the enzyme into the medium. Release was enhanced by treatment with hPTH-(1-34) for 10 min. Incubation of cells with levamisole (an inhibitor of the liver/bone/kidney type of ALPase) resulted in a rapid decrease in basal and PTH-stimulated 45Ca2+ uptake, while treatment with L-Phe-Gly-Gly (an inhibitor of human placental ALPase) was without effect. Treatment of the cells with ALPase (bovine kidney) enhanced 45Ca2+ uptake. In MG-63 cells, a stimulatory effect of hPTH-(1-34) on cell-associated 45Ca2+ was also observed; however, hPTH-(1-34) did not stimulate cAMP production in MG-63 cells. In ROS 17/2.8 cells, neither hPTH-(1-34) nor rat PTH-(1-34) stimulated an increase in cell-associated 45Ca2+, while in UMR-106 cells, rat PTH-(1-34) and (Bu)2cAMP did enhance 45Ca2+ uptake, although hPTH-(1-34) was without effect. We conclude that PTH can stimulate an increase in cell-associated 45Ca2+ in several osteoblast-like cell lines, possibly by modulating local ALPase activity; however, this action of PTH does not appear to be obligatorily dependent on the adenylate cyclase-stimulating action of PTH.
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PMID:Stimulation by parathyroid hormone of 45Ca2+ uptake in osteoblast-like cells: possible involvement of alkaline phosphatase. 231 51

The effect of parathyroid hormone (PTH) on alkaline phosphatase activity was examined in confluent, serum-free primary cultures of neonatal mouse calvarial cells. It was found that synthetic bPTH-(1-34) caused an increase in the specific activity of skeletal alkaline phosphatase isoenzyme by 18 hours. Between 10 and 500 ng/ml, the magnitude of the change was directly related to peptide concentration. The change occurred in the absence of any effect on cell number, total cell protein, or DNA and was not the result of an effect on either proliferation or survival of a specific cell population. Results of histochemical studies indicate that bPTH-(1-34) caused an increase in the proportion of cells containing enzyme activity. The response was duplicated by intact bPTH-(1-84) and DBcAMP, but not by oxidized bPTH-(1-34) or insulin and did not require prostaglandin synthesis or hydroxylation of 25-hydroxyvitamin D3. These results demonstrate that bPTH has a direct effect on osteoblast maturation in vitro, that the effect is specific for PTH, and suggest that it is mediated by cAMP.
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PMID:Stimulation of alkaline phosphatase activity in cultured neonatal mouse calvarial bone cells by parathyroid hormone. 241 27

The involvement of cAMP and calcium in the rise in alkaline phosphatase (AP) activity observed when confluent, serum-free primary cultures of neonatal mouse calvarial cells are treated with parathyroid hormone (PTH) has been studied. Synthetic bovine PTH [bPTH-(1-34)] increased cellular cAMP at concentrations (10(-9) to 10(-7) M) previously found to elevate AP activity. Other substances that increase cAMP in these cells (forskolin, prostaglandin E2, 8-bromoadenosine cAMP and 3-isobutyl-1-methylxanthine) also increased enzyme activity. By comparison, increasing the concentration of calcium in the culture medium from 1.8 to 3.8 or 5.8 mM lowered the magnitude of the maximal AP response. In addition, treatment of cultures with the divalent cation ionophore A23187 caused a significant decrease in AP activity. These results suggest that: 1) cAMP mediates the rise in the specific activity of AP in cultured neonatal mouse calvarial cells treated with bPTH-(1-34) and 2) the concentration of calcium in the environment significantly influences the responsivity of bone cells to the hormone.
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PMID:Parathyroid hormone stimulation of alkaline phosphatase activity in cultured neonatal mouse calvarial bone cells: involvement of cyclic AMP and calcium. 242 85

Human neoplastic salivary cell line (HSGc) and its subclones express alkaline phosphatase (AP) which is sensitive to L-phenylalanine but insensitive to L-homoarginine. Electrophoretic analysis demonstrates two distinct bands of AP, one (sb-1) is heat-stable and another (sb-2) is rather heat-labile and faster mobility than sb-1. The AP activity, especially sb-2, shows high level in less-differentiated clone (HSGc-C5) with increased growth rate but low level in nontumorigenic and well-differentiated clone (HSGc-E1) as compared to parent HSGc. This may suggest that the AP is a possible marker for identification of undifferentiated state in HSGc. This study also indicates that dibutyryl cAMP produces an increase of heat-labile AP in these clones.
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PMID:Different expression of alkaline phosphatase in subclones of human neoplastic salivary duct cell line. 242 79

cAMP has been shown to be a second messenger in the release of many hormones and other secretory products. To determine whether cAMP also plays a role in the mechanism of release of human placental lactogen (hPL), we examined the effects of (Bu)2cAMP, isobutyl methylxanthine, forskolin, and cholera toxin on the acute release of hPL from an enriched fraction of hPL-producing trophoblast cells. Static cultures of trophoblast cells exposed to (Bu)2cAMP (5 mM) for 2 h released 2.6 times as much hPL as control cells (P less than 0.01) during the first 0.5 h of exposure. The increase in hPL release was followed by a decrease rate of release during the subsequent 1.5 h. Perifused trophoblast cells (1.5 X 10(6) exposed to 5 mM cAMP for 20 min released 3.2 times as much hPL as control cells. The rate of hPL increased markedly during the first 10 min of exposure, rapidly decreased toward control values during the remainder of the exposure period, and then declined to a subnormal rate for the next 30 min before returning to normal to control values. (Bu)2cAMP, however, had no acute effects on the release of human CG or the release of the cytosolic enzymes alkaline phosphatase and lactic dehydrogenase. The phosphodiesterase inhibitors theophylline (5 mM) and isobutyl methylxanthine (0.5 mM) and the adenylate cyclase activators forskolin (5 micrograms/ml) and cholera toxin (25 micrograms/ml) stimulated hPL release by 75-95%. These results strongly suggest that cAMP is a second messenger in the acute release of hPL.
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PMID:Cyclic adenosine-3',5'-monophosphate stimulates the acute release of placental lactogen from human trophoblast cells. 243 14

Human osteoblast-like cells were examined for the presence of the Ca2+-Mg2+ ATPase pump. The osteoblast-like cells had characteristic features of the osteoblast phenotype, including the presence of osteonectin, bone GLA protein, and type I collagen. The cells were able to mineralize matrix, their production of cAMP increased in response to PTH, and their alkaline phosphatase activity increased in response to 1,25-dihydroxyvitamin D3. Immunocytochemical staining of the osteoblast-like cells with a monoclonal antibody against human red cell Ca2+-Mg2+ ATPase demonstrated the presence of an epitope of the Ca2+-Mg2+ ATPase in these cells; staining of paraffin-embedded osteoblast-like cell sections demonstrated anti-Ca2+-Mg2+ ATPase staining only in cell plasma membranes. Western blot analysis of osteoblast-like cell homogenates showed that the monoclonal antibody to human erythrocyte Ca2+-Mg2+ ATPase bound to a major band at 140,000 mol wt, similar to the mol wt of known plasma membrane Ca2+-Mg2+ ATPases. The presence in the osteoblast-like cells of a Ca2+-Mg2+ ATPase similar to the human red cell calcium pump suggests that this enzyme may play a role in osteoblast intracellular calcium homeostasis.
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PMID:Epitopes of the human erythrocyte Ca2+-Mg2+ ATPase pump in human osteoblast-like cell plasma membranes. 246 88

In an effort to identify type II cells by a method independent of staining phospholipid inclusions, we evaluated a histochemical technique for alkaline phosphatase activity in normal rat lung, in freshly isolated type II cells, and in primary culture of type II cells. In the adult rat alveolus, alkaline phosphatase staining selectively identified type II cells, although nonciliated bronchiolar (Clara) cells and loose perivascular connective tissue also stained for alkaline phosphatase activity. In cell suspensions of type II cells and other dissociated lung cells, alkaline phosphatase staining correlated closely with the modified Papanicolaou technique and was particularly useful in distinguishing type II cells from alveolar macrophages. To determine if alkaline phosphatase was related to the differentiated phenotype of type II cells, we studied conditions known to affect other type II cell functions. When type II cells were cultured on plastic substrata, the intensity of alkaline phosphatase staining decreased with increasing time in culture. To quantitate the apparent decrease in alkaline phosphatase activity, we used a biochemical assay to study the expression of alkaline phosphatase by type II cells. The specific activity of alkaline phosphatase in type II cells declined with increasing time in tissue culture on plastic substrata. Alkaline phosphatase activity was maintained, however, by culturing cells on Englebreth-Holm-Swarm (EHS) tumor matrix. Cells that had reduced levels of alkaline phosphatase activity following 48 h of culture on plastic substrata could be "rescued" by removing them from the plastic substratum and reculturing them for 48 h on EHS matrix. Alkaline phosphatase activity was also increased by culturing type II cells in the presence of cAMP or sodium butyrate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alkaline phosphatase: a marker of alveolar type II cell differentiation. 246 86

The effect of synthetic human parathyroid hormone (hPTH) on the formation of matrix vesicles (MV), and on the rate of cell division, production of cellular alkaline phosphatase (AP) and protein by primary cultures of chicken epiphyseal growth plate hypertrophic chondrocytes was investigated. Addition to serum-containing or serum-free media of physiological levels of hPTH, in a range from 0.1 to 10 nM, caused a progressive decrease in the formation of AP-rich MV. However, studies on incorporation of [3H]choline into MV indicate that MV formation per se was not significantly decreased. hPTH was found to markedly decrease the expression of cellular AP, accompanied by an increase in cell division [( 3H]thymidine incorporation) and protein synthesis. Since these effects of hPTH were augmented by 3-isobutyl-1-methylxanthine (IBMX), a phosphodiesterase inhibitor, and mimicked by the cAMP analogue N6,O2'-dibutyryl-adenosine 3',5'-cyclic-monophosphate (DBcAMP), the findings clearly indicate that hPTH was acting through the classic cAMP-mediated mechanism. Inasmuch as elevation of AP in growth plate chondrocytes coincides with MV formation, maturation and hypertrophy of the cells, and induction of mineralization, the stimulation of cell division and suppression of cellular AP indicates that hPTH would cause the cells to revert to a less differentiated state. Thus, elevation in PTH, which results from lowered circulating levels of Ca2+, should inhibit mineral deposition in the growth plate. This may be a physiological protective mechanism to prevent a further drain on serum Ca2+.
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PMID:Effect of synthetic human parathyroid hormone on the levels of alkaline phosphatase activity and formation of alkaline phosphatase-rich matrix vesicles by primary cultures of chicken epiphyseal growth plate chondrocytes. 246 54


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