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Query: UMLS:C0029463 (osteosarcoma)
 16,637 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of prostaglandins (PG) on free cytosolic calcium concentrations [( Ca2+]i) and cAMP levels was studied in the osteosarcoma cell line UMR-106. PGF2 alpha and PGE2, but not 6-keto-PGF1 alpha, induced an increase in [Ca2+]i which was mainly due to Ca2+ release from intracellular stores. The EC50 for PGF2 alpha was approximately 7 nM, whereas that for PGE2 was approximately 1.8 microM. Maximal doses of PGF2 alpha increased [Ca2+]i to higher levels than PGE2. Both active PGs also stimulated phosphatidylinositol turnover in UMR-106 cells. The effects of the two PGs were independent of each other and appear to involve separate receptors for each PG. PGE2 was a very potent stimulator of cAMP production and increased cAMP by approximately 80-fold with an EC50 of 0.073 microM. PGF2 alpha was a very poor stimulator of cAMP production; 25 microM PGF2 alpha increased cAMP by 5-fold. The increase in cellular cAMP levels activated a plasma membrane Ca2+ channel which resulted in a secondary, slow increase in [Ca2+]i. High concentrations of both PGs (10-50 microM) inhibited this channel independent of their effect on cAMP levels. Pretreatment of the cells with the phorbol ester 12-O-tetradecanoylphorbol-13-acetate inhibited the PG-mediated increase in phosphatidylinositol turnover and the increase in [Ca2+]i. However, pretreatment with 12-O-tetradecanoyl-13-acetate had no effect on the PGE2-mediated increase in cAMP. The latter finding, together with the dose responses for PGE2-mediated increases in [Ca2+]i and cAMP levels, suggests the presence of two subclasses of PGE2 receptors: one coupled to adenylate cyclase and the other to phospholipase C. With respect to osteoblast function, the cAMP signaling system is antiproliferative, whereas the Ca2+ messenger system, although having no proliferative effect by itself, tempers cAMP's antiproliferative effect.
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PMID:Relationship of cAMP and calcium messenger systems in prostaglandin-stimulated UMR-106 cells. 283 4

The lateral mobility of alkaline phosphatase (AP) in the plasma membrane of osteoblastic and nonosteoblastic cells was estimated by fluorescence redistribution after photobleaching in embryonic and in tumor cells, in cells that express AP naturally, and in cells transfected with an expression vector containing AP cDNA. The diffusion coefficient (D) and the mobile fraction, estimated from the percent recovery (%R), were found to be cell-type dependent ranging from (0.58 +/- 0.16) X 10(-9) cm2s-1 and 73.3 +/- 10.5 in rat osteosarcoma cells ROS 17/2.8 to (1.77 +/- 0.51) X 10(-9) cm2s-1 and 82.8 +/- 2.5 in rat osteosarcoma cells UMR106. Similar values of D greater than or equal to 10(-9) cm2s-1 with approximately 80% recovery were also found in fetal rat calvaria cells, transfected skin fibroblasts, and transfected AP-negative osteosarcoma cells ROS 25/1. These values of D are many times greater than "typical" values for membrane proteins, coming close to those of membrane lipid in fetal rat calvaria and ROS 17/2.8 cells (D = [4(-5)] X 10(-9) cm2s-1 with 75-80% recovery), estimated with the hexadecanoyl aminofluorescein probe. In all cell types, phosphatidylinositol (PI)-specific phospholipase C released 60-90% of native and transfection-expressed AP, demonstrating that, as in other tissue types, AP in these cells is anchored in the membrane via a linkage to PI. These results indicate that the transfected cells used in this study possess the machinery for AP insertion into the membrane and its binding to PI. The fast AP mobility appears to be an intrinsic property of the way the protein is anchored in the membrane, a conclusion with general implications for the understanding of the slow diffusion of other membrane proteins.
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PMID:High lateral mobility of endogenous and transfected alkaline phosphatase: a phosphatidylinositol-anchored membrane protein. 288 41

The properties of phospholipase C (PL-C) in the plasma membranes (PM) and the cytosol of osteoblast-like osteosarcoma cells, UMR-106, were analyzed to see if separate enzymes or similar enzymes were involved in signalling, transduction, and arachidonate release. The cytosolic PL-C displayed substrate affinities in the order of phosphatidylinositol (PI) greater than phosphatidylinositol-4-phosphate (PIP) or phosphatidylinoisitol-4, 5-bisphosphate (PIP2). Hydrolysis of PI, PIP, and PIP2 by cytosolic PL-C was not affected by GTP or GTP gamma S and other nucleotides. PI hydrolysis by PM and cytosolic PL-C was undetectable in the presence of 500 microM EGTA and displayed two activity plateaus at various concentrations of Ca2+. The Km for Ca2+ in the PL-C activity of the first plateau was 0.08 microM. Significant hydrolysis of PIP2 by cytosolic PL-C was observed in the absence of Ca2+. In contrast to the enzyme(s) predominant in the cytosol, the order of substrate affinities for PM PL-C was PIP2 greater than PIP greater than PI. Only PIP2 hydrolysis by PM PL-C was stimulated by both GTP and GTP gamma S in a dose-dependent manner. PIP2 hydrolysis by PL-C of the PM was not observed in the absence of Ca2+, serving to further discriminate this enzyme activity from that of the cytosol. PIP2 hydrolysis by PL-C of the PM also was biphasic in the dependence on Ca2+. At resting cytosolic Ca2+ levels, the Vmax of the high affinity activity already had been achieved. Guanine nucleotide stimulation of PIP2 hydrolysis by PM PL-C was characterized by increased maximum activity with an unchanged Km for Ca2+ or for PIP2. The pH optimum of PIP2 hydrolysis was similar between cytosolic and PM forms of PL-C. PIP2 hydrolysis with production of IP3 (PL-C activity) in UMR-106 cells treated with [2-3H]-myoinositol was stimulated by PTH, and this stimulation was not inhibited by pertussis toxin. These data suggest that UMR-106 cells possess at least two distinct PL-C activities, one predominant in the cytosol and activated by increasing cytosolic Ca2+ with PI as the substrate. The second enzyme, a GTP-activated PIP2-specific PL-C in the plasma membranes may play an important role in hormone-induced PIP2 hydrolysis mediated through guanine nucleotide regulatory proteins and may participate in the hormonal regulation of osteoblast cytosolic Ca2+ and bone remodeling functions.
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PMID:Characterization of phospholipase C activity of the plasma membrane and cytosol of an osteoblast-like cell line. 292 33

Alkaline phosphatase (ALP) was examined in cultured human osteosarcoma cells (SAOS-2) with respect to isoenzyme form, kinetic properties toward two natural substrates, and topography and nature of attachment to the plasma membrane. ALP in SAOS-2 homogenates is the tissue-nonspecific (TNS) isoenzyme and a phosphoethanolamine (PEA) and pyridoxal 5'-phosphate (PLP) phosphatase, as demonstrated by heat and inhibition profiles and electrophoretic mobility. Kinetic studies indicate that TNSALP in SAOS-2 cells has both a low- and a high-affinity activity. The high-affinity activity (showing the greater catalytic efficiency) is active at physiologic pH toward physiologic concentrations (microM) of PEA and PLP. TNSALP was shown to be an ectoenzyme in SAOS-2 cells by our findings in intact cell suspensions, where (i) PEA and PLP degradation in the medium nearly equaled that of whole cell homogenates, (ii) greater than 85% of ALP activity was inactivated by acid treatment, and (iii) ALP activity was quantitatively released by phosphatidylinositol-specific phospholipase C. Our findings indicate that, in SAOS-2 cells, TNS (bone) ALP functions as an ectoenzyme to degrade physiologic concentrations of extracellular natural substrates at physiologic pH.
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PMID:Alkaline phosphatase is an ectoenzyme that acts on micromolar concentrations of natural substrates at physiologic pH in human osteosarcoma (SAOS-2) cells. 316 54

Alkaline phosphatase (orthophosphoric-monoester phosphohydrolase [alkaline optimum], EC 3.1.3.1) expressed in two human osteosarcoma cell lines (Saos-2 and KTOO5) in culture was the tissue nonspecific type and was released from the plasma membrane by phosphatidylinositol (PI) phospholipase C. Despite a difference of 10-fold between the two cell lines in the amount of alkaline phosphatase expressed, the phospholipase solubilized nearly all of the phosphatase from resuspended cells of the two lines. Alkaline phosphatase released with Nonidet-P40 from Saos-2 cells had a Mr of 445,000 by gradient gel electrophoresis in the absence of detergent; that released by PI-phospholipase C was 200,000. The subunit Mr of both solubilized forms was 86,000. Thus, tetrameric alkaline phosphatase in the membrane is attached by a PI-glycan moiety and is converted to dimers when released by PI-phospholipase C. Tunicamycin treatment of Saos-2 cells in culture affected the release of alkaline phosphatase by a high concentration of PI-phospholipase C, but not by a low concentration; both the rate and extent of release were lower from treated cells. However, the enzyme released from the treated cells was in two forms with different molecular weights; it seems that both glycosylated and nonglycosylated dimers were transported to the cell surface and incorporated into the plasma membrane. Glycosylation does not appear to be necessary for alkaline phosphatase to be anchored in the membrane via PI.
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PMID:Release of alkaline phosphatase from human osteosarcoma cells by phosphatidylinositol phospholipase C: effect of tunicamycin. 316 62

Calcium and phosphorus metabolism is mainly regulated by PTH through its actions on kidney and bone. PTHrP, which is associated with the hypercalcemia of malignancy syndrome, binds to and activates the same receptor that PTH does. cDNA clones of PTH/PTHrP receptors from rat osteosarcoma (ROS 17/2.8) and opossum kidney (OK) cells are highly homologous and are members of a novel G protein-linked receptor family that includes calcitonin, glucagon, GLP-1, GHRH, VIP, and secretin receptors. Analysis of the protein sequence predicts a receptor with 7 transmembrane domains, a 155 amino acids (aa) extracellular (EC) N-terminal, and 130aa intracellular C-terminal domaina. The extracellular domain has 6 conserved cysteines and 4 potential glycosylation sites. When transfected in COS cells, both receptors are able to bind PTH and PTHrP active fragments with equal affinity. Likewise, agonists activate both adenylate cyclase and phospholipase C efficiently. The N-terminal EC domain and the first EC loop seem to determine the receptor binding capacity with the agonists. Activation of adenylate cyclase and phospholipase C might involve multiple sites between the 3rd helix and the C-terminal tail. Partial characterization of the rat PTH/PTHrP receptor gene demonstrates the existence of at least 15 exons. The first six transmembrane domains are encoded by separated exons. The PTH/PTHrP receptor mRNA is expressed mainly in kidney and bone, and also is widely expressed in many tissues, but not all. A major 2.3-2.5 kb transcript is observed in all these tissues. Nevertheless, 2 larger transcripts are observed in kidney and liver, and multiple smaller mRNA species are observed in kidney, skin, and testis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Mode of action of parathyroid hormone (PTH) and PTH-related peptide (PTHrP) in target organs]. 785 77

Endothelins (ETs) (ET-1, ET-2, and ET-3), a family of 21-amino acid peptides, mediate a host of biological responses by binding to specific cell surface receptors termed ETA and ETB. Because a role for ET in bone remodeling has been suggested, the present study was undertaken (a) to characterize ET receptors and their responses in the rat osteosarcoma cell line ROS 17/2.8 and (b) to study their regulation by 1,25-dihydroxy-vitamin D3. Binding studies using 125I-ET-1 (a nonselective agonist) and 125I-IRL-1620 (an ETB receptor-selective agonist) indicated that these cells display high affinity ETA and ETB receptors in the ratio of 3:1. Addition of ET-1 or sarafotoxin 6c to myo-[3H]inositol-labeled cells resulted in an increase in inositol phosphate accumulation as well as in intracellular Ca2+ release, suggesting that these receptors are coupled to phospholipase C. In addition, ET-1 but not sarafotoxin 6c induced a modest increase in the expression of osteocalcin protein that was completely blocked by BQ123 (an ETA receptor-selective antagonist), indicating that activation of ETA receptors plays a role in the induction of osteocalcin. Treatment of ROS osteoblasts with 10 nM 1,25-dihydroxy-vitamin D3 for 14 hr resulted in a significant (> 50%) decrease in 125I-ET-1 and 125I-IRL-1620 binding. This decrease in binding was shown to be due to a decrease in the number of ET receptors, with no change in affinity. Although both ETA and ETB receptors were down-regulated in response to 1,25-dihydroxy-vitamin D3, only ETA receptor mRNA levels were significantly decreased, with very little change in ETB mRNA levels. These data indicate that ROS osteoblasts display both ETA and ETB receptors that are functional. Induction of osteocalcin was primarily mediated by ETA receptors, and these receptors were also down-regulated at the mRNA level by 1,25-dihydroxy-vitamin D3.
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PMID:Identification and characterization of endothelin receptors on rat osteoblastic osteosarcoma cells: down-regulation by 1,25-dihydroxy-vitamin D3. 787 34

Previous investigations have demonstrated the existence of an autonomous intranuclear inositide cycle endowed with conventional lipid kinases and phospholipase C (PLC) which is the isoform beta in Swiss 3T3 cells, PC12 pheochromocytoma cells, human osteosarcoma SaOS-2 cells, and rat liver. The presence of PLC has been investigated in nuclei of Friend erythroleukemia cells. Both beta and gamma isoforms are present in these nuclei. When Friend cells undergo terminal erythroid differentiation in the presence of dimethyl sulfoxide the PLC beta isoform is down-regulated as shown by immunochemical and immunocytochemical analysis, by determination of enzymatic activity directly and in the presence of neutralizing monoclonal antibodies and also by Northern blot for PLC beta message. By contrast, the amount of PLC gamma and its activity are unaffected by erythroid differentiation. Thus, the presence of a nuclear PLC beta, the activity and expression of which are modulated during differentiation of erythroleukemia cells, implicates a role for nuclear phosphoinositide signaling in the processes of cell determination and indicates the nuclear PLC beta as a key enzyme of the cycle in relation to the erythroid differentiative commitment of murine erythroleukemia cells.
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PMID:Phosphoinositide signaling in nuclei of Friend cells: phospholipase C beta down-regulation is related to cell differentiation. 816 74

Previous studies have demonstrated that parathyroid hormone (PTH) and human alpha-thrombin mobilize intracellular calcium from distinct pools in UMR 106-H5 rat osteosarcoma cells. The present studies were designed to explore the molecular basis of this differential signaling. Maximally effective concentrations of both PTH (240 nM) and thrombin (10 U/ml) produced a rapid intracellular free calcium (Cai++) transient (a 2- to 3-fold increase) that was inhibited by pretreatment with the phospholipase C inhibitor 1-[6-[[17 beta-3-methoxyestra-1,3,5(10)-trien-17-yl]amino]hexyl]- 1H-pyrrole-2,5-dione (U73,122) in a dose-dependent manner (IC50 = 3 microM). Inhibition by U73,122 was not associated with a change in PTH-stimulated adenylate cyclase activity, whereas inositol phosphate accumulation, detected only in response to thrombin, was inhibited 23 to 45%. Prior exposure of cells for 5 min with the protein kinase C activators phorbol 12-myristate 13-acetate (8-80 nM) and phorbol 12,13-dibutyrate (80 nM) weakly inhibited (< or = 30%) the peak Cai++ increase in response to thrombin but completely blocked the Cai++ response to PTH. In contrast, 12-myristate 13-acetate produced a 1.55-fold increase in the maximal stimulatory effect of PTH on adenylate cyclase activity. These data suggest that activation of phospholipase C is a prerequisite for both PTH- and thrombin-stimulated increases in Cai++ and that protein kinase C differentially regulates the ability of these agents to raise Cai++. Collectively the results support the notion that the IP3/calcium mobilizing pathways utilized by PTH and thrombin are compartmentalized.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A novel phospholipase C inhibitor and phorbol esters reveal selective regulation of thrombin- and parathyroid hormone-stimulated signaling pathways in rat osteosarcoma cells. 816 21

G-proteins mediate transmembrane signalling from a populous group of cell-surface receptors to a smaller group of effectors that includes adenylate cyclase, various ion channels and phospholipase C. Stem cells (F9 teratocarcinoma) or rat osteosarcoma 17/2.8 cells in which Gi alpha 2 expression is abolished by antisense RNA display markedly elevated basal inositol 1,4,5-trisphosphate accumulation and a potentiated phospholipase C response to stimulatory hormones. Expression of the Q205L mutant of Gi alpha 2, which is constitutively active, was found to block persistently hormonally stimulated phospholipase C activity, implicating Gi alpha 2 as an inhibitory regulator of phospholipase C signalling. Analysis using Gi alpha 2-deficient adipocytes of transgenic mice provided further evidence for a role for Gi alpha 2 in phospholipase C regulation, demonstrating in vivo that loss of Gi alpha 2 elevates basal, and markedly potentiates hormonally stimulated, phospholipase C activity. This report demonstrates for the first time that a single G-protein, G12, can regulate two distinct signalling pathways, i.e. adenylate cyclase and phospholipase C.
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PMID:Suppression of Gi alpha 2 enhances phospholipase C signalling. 819 47


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