Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0029463 (osteosarcoma)
 16,637 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The hormonal metabolite of vitamin D3, 1,25-dihydroxyvitamin D3 (1,25(OH)2D3), exerts its biological effects by initially binding to a cytosolic receptor protein. Such a protein has been demonstrated in the target organs of vitamin D3 including bone. Although the role of 1,25(OH)2D3 on the skeleton has been extensively studied in normal bone, nothing is known about its effects, if any, in abnormal bone growth. Rat osteogenic sarcoma is a useful model for bone malignancy. Tumor cells retain differentiated functions including the ability to form bone and to respond to parathyroid hormone, prostaglandins, and to a smaller extent to calcitonin with increases in cyclic AMP levels. We have here evaluated osteogenic sarcoma cell lines for the presence of a receptor for 1,25(OH)2D3. We have utilized sucrose gradient sedimentation, saturation analysis, and DNA-cellulose chromatography. Cytosol preparations from these cell lines contain a 3.3 S saturable macromolecule which binds 1,25(OH)2D3 with specificity and high affinity (Kd = 2 x 10(-10) M). The sterol-macromolecule complex binds to DNA-cellulose and its elution profile from this affinity resin is similar to that of the 1,25(OH)2D3 receptor from normal rat bone. These tumor cells should serve as a useful model for studying the action of 1,25(OH)2D3 in bone and the role of this metabolite in the biology of bone malignancy.
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PMID:1,25-Dihydroxyvitamin D3 receptor-like macromolecule in rat osteogenic sarcoma cell lines. 692 75

The adenylate cyclase (ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1)-stimulating factor from rat osteosarcoma cytosol was purified 600-fold by ion-exchange chromatography. The factor has an apparent Mr of 20000, is cold-labile, but retains activity at -20 degrees C in 10% glycerol. The factor enhanced parathyroid hormone stimulation of adenylate cyclase and restored hormone responsiveness to membranes washed with 0.5 M NaCl. These 'GTP-like' effects were not inhibited by 100 microM GDP-beta-S, which completely abolished the GTP enhancement of both basal and hormone-stimulated adenylate cyclase. Adenylate cyclase activity in the presence of the stimulating factor was linear with time, and showed hyperbolic dependence on factor concentration. The factor also linearized (in double reciprocal plots) the downward-concave Mg2+-dependence of adenylate cyclase, increasing the apparent affinity of the enzyme for Mg2+. The presence of the factor in two clonal osteosarcoma cell lines correlated with parathyroid hormone-stimulatable adenylate cyclase. Factor stimulation was absent while GTP stimulation was retained in the hormone-nonresponsive clone. Factor and hormone sensitivity were restored by in vivo passage. This factor thus may represent a guanyl nucleotide-independent path for cellular regulation of hormone response.
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PMID:Osteosarcoma cytosol factor promotes parathyroid hormone stimulation of adenylate cyclase independent of GTP. 693 11

Protein phosphorylation was compared in normal human cells and human osteogenic sarcoma cells. The phosphorylation of endogenous cellular protein substrates was measured by two independent methods, incubation of homogenized cells with [gamma-32P]ATP or labeling of intact cells with Na2H32PO4. Phosphorylated proteins were identified by SDS-polyacrylamide gel electrophoresis and autoradiography. The stained protein bands of all four osteosarcoma cell lines were nearly identical to those of the normal cells. However, each of the osteosarcoma cell lines showed autoradiographic evidence of enhanced phosphorylation in many different protein bands which was neither cyclic AMP-dependent nor a function of cellular growth rate or density. When normal and tumor cell homogenates were mixed prior to incubation with [gamma-32P]ATP, the resulting phosphoprotein patterns resembled those obtained with the tumor cells alone. In addition, a surgically derived osteogenic sarcoma was cultured and an established line obtained; another portion of the fresh tumor was immediately homogenized and used in a phosphorylation assay. The same enhanced phosphorylation pattern was obtained with the homogenized fresh tumor as with the cell line established from it. These results suggest that human osteogenic sarcoma cells are able to perform a significantly increased amount of phosphorylation of endogenous cellular protein substrates when compared to normal human cells.
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PMID:Human osteogenic sarcoma cells exhibit enhanced protein phosphorylation. 694 94

Helodermin and helospectin are peptides structurally similar to vasoactive intestinal polypeptide (VIP) which were recently isolated from the salivary gland venom of the lizard Heloderma suspectum. Pituitary adenylate cyclase-activating polypeptide (PACAP) has been isolated from ovine hypothalamus and also shows sequence homology to VIP. A helodermin-like peptide has been detected by combined immunohistochemical and immunochemical techniques in the thyroid C-cells. In the present study, lizard helodermin was found to cause a time- and dose-dependent stimulation of cyclic AMP (cAMP) formation in neonatal mouse calvarial bones. Also, helospectin I, PACAP 27, and the C-terminally extended PACAP 38 stimulated cAMP accumulation in the mouse calvariae. The cAMP rise in response to helodermin was comparable to that induced by VIP, both in terms of potency and magnitude of the response. Helodermin, helospectin I, PACAP 27, and PACAP 38, at concentrations of 1 mumol/liter, stimulated cAMP accumulation in enzymatically isolated mouse calvarial bone cells. A significant response to all peptides was observed in both early and late released bone cells isolated from the calvariae, with low and high alkaline phosphatase activity, respectively. Helodermin and VIP stimulated cAMP accumulation in the cloned mouse calvarial osteoblastic cell line MC3T3-E1, in rat (UMR 106-01), and human (Saos-2) osteoblastic osteosarcoma cell lines, but not in the rat osteosarcoma cell line ROS 17/2.8. The effect of helodermin was synergistically and dose-dependently enhanced by forskolin (0.1 and 1 mumol/liter). These data show that bone cells, including osteoblasts, respond to several peptides of the VIP family, including helodermin, helospectin I, PACAP 27, and PACAP 38.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Helodermin, helospectin, and PACAP stimulate cyclic AMP formation in intact bone, isolated osteoblasts, and osteoblastic cell lines. 791 21

PTH is regarded conventionally as a catabolic hormone that stimulates osteoclastic resorption of bone. However, it has been known since 1932 that intermittent pulses of PTH stimulate bone formation in animals and humans. PTH independently activates two signal mechanisms: one that stimulates adenylyl cyclase and one that stimulates protein kinase C (PKC). The goal of this study was to use the 3- to 5-month-old ovariectomized (OVX) rat model to determine which of the two signal mechanisms is responsible for the anabolic action of PTH on bone. OVX triggered a large loss of trabecular bone without significantly affecting the normal slow growth of cortical bone in the distal halves of the femora. Daily injections of human hPTH(1-34) fragment (1 nmol/100 g body weight), which stimulated both adenylyl cyclase and membrane-associated PKC activity in osteoblast-like ROS 17/2 rat osteosarcoma cells, stimulated the growth of both cortical and trabecular bone in the OVX rats. Daily injections of the same dose of hPTH(1-31), which stimulated adenylyl cyclase but not PKC in ROS 17/2 cells, stimulated trabecular bone growth in the OVX rats less effectively than hPTH(1-34), but it stimulated cortical bone growth as rapidly and as dramatically as hPTH(1-34). Injections of equimolar amounts of desamino-hPTH(1-34) [N-propionyl(2-3)hPTH-amide], which stimulated PKC as strongly as hPTH(1-34) in ROS 17/2 cells but had a drastically reduced ability to stimulate adenylyl cyclase, or injections of recombinant hPTH(8-84) which stimulated PKC only in the ROS 17/2 cells, did not stimulate cortical or trabecular bone growth in the OVX animals. Thus, cyclic AMP and cyclic AMP-dependent protein kinases may be the primary mediators of the anabolic action of intermittent pulses of PTH on bone in OVX rats.
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PMID:Parathyroid hormone fragments may stimulate bone growth in ovariectomized rats by activating adenylyl cyclase. 797

UMR-106 rat osteogenic sarcoma cells express two calcium signaling P2 purinergic receptors. One is a P2U receptor with EC50's for adenosine triphosphate (ATP) and uridine triphosphate (UTP) of 2.6 and 2.4 microM, respectively. The other is a novel P2T receptor for adenosine diphosphate (ADP) (EC50 0.4 microM), adenosine 5'-O-(2-thiodiphosphate). (EC50 5 microM), 2-methylthio ATP (EC50 0.2 microM), and 2-methylthio ADP (EC50 0.04 microgram M). Responses to these ligands are desensitized by ADP but not by UTP. Responses to UTP and ATP are desensitized by UTP but not by ADP or adenosine 5'-O-(2-thiodiphosphate). 2-ChloroATP interacts with both receptors at high concentrations but with only the P2T receptor at low concentrations (EC50 0.05 microM). The weak platelet P2T receptor antagonist AMP blocks this P2T and not the P2U receptor. Addition of ATP after UTP desensitization of P2U receptors inhibits subsequent responsiveness to ADP but evidence for rapid conversion of ATP to ADP complicates interpretation of this apparent antagonism of P2T receptors by ATP. A subpassage of UMR-106.P135 cells lose P2U but retain P2T ligand responsiveness. Activation of either P2 receptor increases cellular IP3 concentrations in UMR-106 cells. Neither receptor can activate divalent cation entry as evidenced by their lack of effect on Mn++ quenching of fura-2 fluorescence. Neither receptor can modify parathyroid hormone receptor-mediated elevation of cellular cyclic AMP. This receptor for ADP demonstrates many of the same characteristics of the ADP receptor which we have previously reported as a P2T receptor expressed in K562 and Dami cells.
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PMID:Separate P2T and P2U purinergic receptors with similar second messenger signaling pathways in UMR-106 osteoblasts. 801 49

Parathyroid hormone-related peptide (PTHrP) was originally isolated from tumors associated with the development of hypercalcemia in vivo. Analyses of PTHrP gene expression have demonstrated that PTHrP is also produced in a wide variety of normal fetal and adult nonneoplastic tissues. The results of recent experiments have demonstrated that PTHrP is a growth factor-regulated gene, and different molecular forms of synthetic PTHrP display variable activities in assays for growth factor-like properties in vitro. We have studied the growth factor-like activity of PTHrP in cells transfected with a human PTHrP (hPTHrP) expression vector. Transfected cell lines contained increased amounts of PTHrP mRNA transcripts as assessed by Northern blot analysis. The PTHrP mRNA transcripts were translated into immunoreactive hPTHrP as measured by radioimmunoassay, and conditioned medium from transfected cell lines stimulated cyclic AMP (cAMP) formation in ROS 17/2.8 osteosarcoma cells. The transforming growth factor-beta-like properties of hPTHrP-producing NRK 49F clones were examined using the large-colony transformation assay in soft agar. PTHrP-producing NRK 49F clones did not form large colonies in the presence of epidermal growth factor. In contrast, PTHrP-producing and wild-type NRK 49F cells formed large colonies in the presence of epidermal growth factor and transforming growth factor-beta. No effect on cell growth was observed in PTHrP-producing NRK 49F rat kidney fibroblasts or mouse NIH 3T3 fibroblasts. In contrast, RCB 2.2 osteoblast cells expressing the hPTHrP cDNA were growth inhibited. Incubation of wild-type RCB 2.2 cells with synthetic hPTHrP[1-34] (at concentrations of 1.0-10.0 nM) also produced growth inhibition. PTHrP increased cAMP formation in RCB 2.2 cells but not in NIH 3T3 or NRK 49F cells. Incubation of RCB 2.2 cells with dibutyryl cAMP was also associated with inhibition of cell growth. The results of these studies demonstrate that PTHrP may function as an autocrine growth inhibitor of specific cell types, possibly through a cAMP-dependent pathway.
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PMID:Growth factor-like properties of parathyroid hormone-related peptide in transfected rodent cell line. 831 5

The effect of recombinant Pasteurella multocida toxin (PMT) on primary cultures of embryonic chick bone-derived osteoblastic cells was investigated. It was found that PMT was a potent mitogen for primary derived chicken osteoblasts. The toxin stimulated DNA synthesis and cell proliferation in quiescent osteoblasts at the first passage and accelerated cell growth in subconfluent cultures. Cell viability was not affected by PMT, even at relatively high concentrations. Osteoblast numbers increased in a dose-dependent manner in response to PMT. Intracellular inositol phosphates were elevated in response to PMT, but no elevation in cyclic AMP (cAMP) levels was evident. Indeed, PMT inhibited cAMP elevation in osteoblasts in response to cholera toxin at a stage before other PMT-mediated events take place. In addition to increased cell turnover, PMT down-regulated the expression of several markers of osteoblast differentiation. Both alkaline phosphatase and type I collagen were reduced, but osteonectin was not affected. The in vitro deposition of mineral in cultures of primary osteoblasts and osteoblast-like osteosarcoma cells was also inhibited by the presence of PMT. This suggests that PMT interferes with differentiation at a preosteoblastic stage.
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PMID:Pasteurella multocida toxin is a mitogen for bone cells in primary culture. 864 7

Osteocalcin (OC) is a matrix calcium-binding protein expressed in osteoblasts and odontoblasts undergoing mineralization. OC expression is up-regulated in part by signals initiated by basic fibroblast growth factor (FGF2), cyclic AMP or forskolin (FSK), and calcitriol via defined elements and DNA-protein interactions in the OC promoter. We identified the OC gene as a target for transcriptional suppression by Msx2, a homeodomain transcription factor that controls ossification in the developing skull. In this study, we examine the effects of Msx2 expression on OC promoter activation (luciferase reporter) by FGF2/FSK and calcitriol in MC3T3-E1 osteoblasts. Expression of Msx2 decreases basal activity of the 1-kilobase (-1050 to +32) rat OC promoter by 80%; however, the promoter is still inducible 3-fold by calcitriol. By contrast, OC promoter induction by FGF2/FSK is completely abrogated by Msx2. Because intrinsic Msx2 DNA binding activity is not required for the Msx2 suppressor function, we assessed whether Msx2 represses OC activation by regulating DNA-protein interactions at the FGF2 response element (OCFRE) and compared these interactions with those occurring at the calcitriol response element (VDRE). Treatment of MC3T3-E1 cells with FGF2/FSK or calcitriol up-regulates specific DNA-protein interactions at the OCFRE or VDRE, respectively, as detected by gel shift assay. Preincubation of crude nuclear extracts with recombinant glutathione S-transferase (GST)-Msx2 dose-dependently inhibits OCFRE DNA binding activity, whereas GST has no effect. Msx2 itself does not bind the OCFRE. Residues 132-148 required for Msx2 core suppressor function in transfection assays are also required to inhibit OCFRE DNA binding activity. By contrast, GST-Msx2 has no effect on calcitriol-regulated DNA-protein interactions at the VDRE. Using gel shift as an assay, the OCFRE DNA-binding protein OCFREB was purified to about 50% homogeneity from MG63 osteosarcoma cells. Recombinant Msx2 inhibits purified OCFREB DNA binding activity, whereas the Msx2 variant lacking residues 132-148 is inactive. Thus, Msx2 abrogates up-regulation of the OC promoter by FGF2/FSK in part by inhibiting OCFREB binding to the OCFRE.
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PMID:Stimulus-selective inhibition of rat osteocalcin promoter induction and protein-DNA interactions by the homeodomain repressor Msx2. 936 26

It has been proposed that intermittent bursts of adenylyl cyclase and the surges of cyclic AMP (cAMP) they produce can trigger PTH's bone anabolic action without the activation of phospholipase-C (PLC). This was based on the osteogenic action in ovariectomized (OVX) rats of hPTH-(1-31)NH(2), which can stimulate adenylyl cyclase but not PLC in ROS 17/2 rat osteosarcoma cells, and the osteogenic impotence of fragments such as 1-desamino-hPTH-(1-34) and hPTH-(8-84) which strongly stimulate PLC but not adenylyl cyclase. But this seems to have been disproven by the inability of hPTH-(1-30)NH(2) to stimulate bone growth despite its having hPTH-(1-31)NH(2)'s ability to strongly stimulate adenylyl cyclase but not PLC in cells with rat type1 PTH/PTHrP receptors. Because of the importance of hPTH-(1-30)NH(2)'s apparent osteogenic impotence for knowing how PTH triggers bone growth, we have reinvestigated the fragment's ability to stimulate trabecular bone growth in the femurs of young OVX rats and have found it to be strongly osteogenic at doses 2-10 times higher than the highest dose used previously. Thus, 6 weeks of once-daily subcutaneous injections of 10-50 nmol of hPTH-(1-30)NH(2)/100 g of body weight into young rats starting 2 weeks after OVX significantly increased the femoral trabecular volume and mean thickness of individual trabeculae above those in sham-operated control rats. In OVX rats treated with 50 nmol of hPTH-(1-30)NH(2)/100 g of body weight, the trabecular volume was 2.6 times higher and the mean trabecular thickness nearly 4 times higher than in the sham-operated control rats. This very large increase in the mean trabecular thickness was as much as the increase induced by 2 nmol/100 g of body weight of hPTH-(1-31)NH(2), [Leu(27)]cyclo(Glu(22)-Lys(26))-hPTH-(1-31)NH(2), hPTH-(1-34)NH(2) and [Leu(27)]cyclo(Glu(22)-Lys(26))-hPTH-(1-34)NH(2). These results have removed a major objection to the proposal that PTH's osteogenic action in rats can be triggered solely by intermittent surges of cAMP and the bursts of cAMP-dependent protein kinase activity they cause.
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PMID:Stimulation of femoral trabecular bone growth in ovariectomized rats by human parathyroid hormone (hPTH)-(1-30)NH(2). 1043 Jun 48


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