Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

beta-Adrenergic receptors were demonstrated in membrane preparations from 6 human Ewing's sarcomas and compared to those from 46 other pediatric cancers with the use of the beta-adrenergic antagonist (-)-(3H)dihydroalprenolol [(-)[3H]DHA]. In contrast to the high numbers of receptor sites found in Ewing's sarcomas (55-640 fmol x mg-1 protein; dissociation constant Kd, 1-2 nM), other childhood cancers (neuroblastoma, rhabdomyosarcoma, brain tumors, lymphoma, osteosarcoma, hepatoblastoma, yolk sac, and Wilms' tumor) contained in general fewer beta-adrenergic receptor sites. Characteristics of (-)-[3H]DHA binding were therefore more fully characterized in the Ewing's tumors. Competition of (-)-[3H]DHA binding by classical catecholamine agonists, as well as by subtype selective agents metoprolol and zinterol, demonstrated the presence of a homogeneous population of beta 1-adrenergic sites in several Ewing's tumors. Adenylate cyclase activity in all Ewing's sarcomas was enhanced by GTP and NaF. However, in spite of high numbers of beta-adrenergic receptors, (-)-isoproterenol was not very effective in the activation of adenylate cyclase activity in several of the Ewing's tumors tested. Neither guanyl-5'-yl-imidophosphate nor GTP altered agonist potency for the receptor site in these catecholamine-insensitive tumors. Hill coefficients obtained from the competition experiments with (-)-isoproterenol (in the presence or absence of guanine nucleotide) were approximately 1.0. These uncoupled receptors were resistant to N-ethylmaleimide denaturation and were densensitized only 50% during culture in the presence of (-)-isoproterenol. Thus Ewing's sarcomas are relatively rich in beta-adrenergic sites, and several tumors appear to have a coupling lesion involving guanine nucleotide-dependent regulatory protein interaction with beta-adrenergic receptors and adenylate cyclase, similar in phenotype to that described in the (unc) variant of S49 mouse lymphoma.
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PMID:beta-Adrenergic receptors in pediatric tumors: uncoupled beta 1-adrenergic receptor in Ewing's sarcoma. 631 52

The ultrastructural and biochemical properties of four clonal osteogenic sarcoma lines, UMR 104, 105, 106, and 108, have been compared with uncloned osteogenic sarcoma cells and normal osteoblast-rich cells derived from newborn rat calvaria. High alkaline phosphatase activity and activation of adenylate cyclase by parathyroid hormone were used as biochemical markers of osteoblastic cells. Cloning enriched both of these parameters above those of the parent tumor and far higher than that seen in normal cells, suggesting enrichment of the osteoblast phenotype. Both of these properties have been retained through many passages in culture. Morphologically, the clonal lines have also retained the "blast"-like appearance of the uncloned osteogenic sarcoma cells and consist mainly of flat, relatively featureless cells. Many cells with mitotic figures were observed, indicating continuous cell division taking place in the malignant cells. Each clonal line gave rise to characteristic tumors when reinjected into rats. It is concluded that the clonal osteogenic sarcoma lines are highly differentiated tumor lines which have conserved the differentiated properties of the mature osteoblast, making them a suitable model for the study of the effects of hormones on the growth of a differentiated tumor, as well as for the study of hormonal regulation of the osteoblast.
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PMID:Morphological and biochemical characterization of four clonal osteogenic sarcoma cell lines of rat origin. 657 64

Isolated bone cells are often described according to the presence of PTH- and calcitonin (CT)-sensitive adenylate cyclase activities. Osteoblasts are thought to be cells with PTH-sensitive adenylate cyclase but without CT response, and osteoclasts are thought to be CT-sensitive cells. We have studied the adenylate cyclase of a cloned bone cell line (UMR-106) derived from a rat osteosarcoma and used as a model of osteoblastic cells. Cells maintained in continuous culture for over 2 yr contain adenylate cyclase responsive to CT as well as PTH. The stimulatory effects of both hormones are dependent on hormone concentration, time, and the guanine nucleotide GTP. PTH and CT may activate the same adenylate cyclase in UMR-106 cells, since the stimulatory effects of the two hormones are not additive when combined at concentrations giving maximal activity. The beta-adrenergic agonist isoproterenol also stimulates adenylate cyclase in these cells. Unlike late passages of UMR-106 cells, cells of earlier passages (less than 50) showed only slight CT-sensitive adenylate cyclase activity. Our results suggest that studies of hormone effects attributed to the osteoblast phenotype should consider possible alteration of hormone responsiveness in cloned tumor cells during long term culture.
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PMID:Adenylate cyclase of osteoblast-like cells from rat osteosarcoma is stimulated by calcitonin as well as parathyroid hormone. 659 30

The effects of Mg(2+) and Ca(2+) on bone and osteosarcoma adenylate cyclase were investigated. The concentrations of the cations and other ionic species in the assay mixture were calculated by solving the simultaneous equations describing the relevant ionic interactions (multiple equilibria). We re-examined the effects of HATP(3-) and ATP(4-) on enzyme activity and found that (i) the concentration of the minor ATP species is less than 1% of that of MgATP(2-), and their ratio to MgATP(2-) is constant if Mg(2+) and H(+) concentrations are unchanged; (ii) Mg(2+) addition decreased the ratio of the minor species to MgATP(2-) and increased the enzyme activity, but no meaningful kinetic model could attribute this effect of HATP(3-) or ATP(4-). On the other hand, kinetic analysis of Mg(2+) effects showed: (i) stimulation via two metal sites, separate from the catalytic (MgATP(2-)) site, with apparent K(m) values of approximately 1 and 8mm; (ii) that the low affinity increased towards the higher one when the enzyme activity rose as a result of increased substrate or guanine nucleotide concentrations, this effect being less pronounced in tumour; (iii) conversely, that two apparent affinities for MgATP(2-) merged into one at high Mg(2+) concentration; (iv) kinetically, that this relationship is of the mixed con-competitive type, which is consistent with a role for Mg(2+) as a requisite activator, and binding occurring in non-ordered sequence. Analysis of the Ca(2+) effects showed: (i) competition with Mg(2+) at the metal site (K(i) 20mum for bone and 40mum for tumour); (ii) that relative to the substrate the inhibition was uncompetitive, i.e. velocity decreased and affinity increased proportionally, which is consistent with Ca(2+) binding after substrate binding. These findings support the existence of interacting enzyme complexes, losing co-operativity at increased enzyme activity. They also indicate a potential physiological role for Ca(2+) in enzyme regulation and point to quantitative differences between bone and tumour with regard to these properties.
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PMID:Comparison of bone and osteosarcoma adenylate cyclase. Effects of Mg2+, Ca2+, ATP4- and HATP3- in the assay mixture. 677 Aug 47

The purpose of this study was to compare the adenylate cyclase of a tumour (rat osteosarcoma) growing in vivo with that of fast-growing embryonic bone. In the tumour the enzyme activity per total protein or DNA (under the same assay conditions) was 6--10-fold lower than in embryonic bone. To characterize this difference, we examined the kinetic properties of the enzyme in partially purified plasma membranes from the two tissues. A purification procedure based on differential centrifugation and discontinuous-sucrose-gradient centrifugation yielded a 10-fold increase in the specific activities of adenylate cyclase and 5'-nucleotidase in bone. The same procedure yielded an enriched membrane preparation from the tumour, but, relative to 5'-nucleotidase, a loss of 30% in adenylate cyclase occurred, which could not be recovered from another fraction. Kinetic analysis revealed that the lower adenylate cyclase activity in the tumour was due to a decrease in Vmax.. There was no significant difference in Ks (approx. 0.15 mM), and in the Km for GTP and p[NH]ppG. There were marked differences, however, in the extent of stimulation by p[NH]ppG, GTP and hormone, which was greater in tumour, and in the K1 for adenosine inhibition, which was 140 microM in bone and 500 microM in tumour. Under maximum stimulatory conditions, the enzyme activity in the tumour approached that in bone. The kinetic differences between bone and tumour enzyme were decreased by detergent solubilization, suggesting that the membrane environment plays a role in the generation of the observed differences.
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PMID:Comparison of bone and osteosarcoma adenylate cyclase. Partial purification of membranes and kinetic properties of enzyme. 693 Feb 65

1. The addition of 50 000g cytosol preparations of isolated human platelets, cultured rat osteogenic sarcoma or cultured bone cells to particulate preparations of adenylate cyclase, from the same or unrelated tissues, caused marked enhancement of the hormone-stimulated enzyme activities. 2. The degree of enhancement obtained by addition of the cytosol preparations was similar to that observed on addition of GTP. 3. The enhancing activity of the three cytosol types was found to be sensitive to digestion by trypsin and alkaline phosphatase, partially heat-labile and partially inactivated by exposure to charcoal. 4. Gel filtration studies indicated an apparent molecular weight of 20 000--30 000. Further, the 20000-30000-mol.wt. fractions obtained by gel filtration could enhance the adenylate cyclase activity of particulate preparations derived from unrelated cell types. 5. The results suggest a common or similar adenylate-cyclase-enhancing factor or factors, protein in nature, present in the three cytosol types.
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PMID:Properties of a factor in cytosol that enhances hormones-stimulated adenylate cyclase activity. 693 Sep 68

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

Certain metabolic properties of hormonally responsive osteogenic sarcoma cells derived from a transplantable rat tumor have been compared with those of related normal rat bone cells. All studies were carried out on cells grown in monolayer culture. Normal rat bone cells derived by repeated collagenase/trypsin digestion of newborn rat calvaria. Bone cells selected for comparison were thought to be osteoblast-like, as judged by enrichment of alkaline phosphatase and adenylate cyclase responsiveness to parathyroid hormone and prostaglandin E2. The adenylate cyclases of the two cell strains were similarly stimulated by a range of prostanoids and their metabolites and analogs. Morphology showed the two cell strains to be similar; the only obvious difference was a multilayering of cells in the sarcoma cultures, while the normal cultures showed abundant extracellular fibril formation which was not seen in the tumor cells. Investigation of the cAMP-dependent protein kinase isoenzymes showed the presence of two forms in both cell types, one eluting at a low salt concentration and the other at a high salt concentration. There was approximately twice the amount of the first isoenzyme compared to the second isoenzyme. The results indicate the usefulness of the two cell strains to elucidate further the molecular mechanisms of action of parathyroid hormone and prostaglandins.
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PMID:Functional properties of hormonally responsive cultured normal and malignant rat osteoblastic cells. 693 60

1. Mg2+ concentration dependence of adenylate cyclase activity, in a rat osteosarcoma cell line (ROS 2/3), exhibits two apparent affinities with Km values of approx. 2 mM and 10 mM. 2. Only one Mg2+ affinity with a Km value of around 1 mM was apparent at saturating concentrations of: (i) guanosine-5'-(beta, gamma-imido)triphosphate; (ii) parathyroid hormone and GTP; and (iii) (-)-isoproterenol and GTP. 3. Conversely, at saturating concentrations of Mg2+ (40 mM) only high hormone concentrations, acting on low affinity sites, stimulated adenylate cyclase. 4. At saturating concentrations of guanosine-5'-(beta, gamma-imido)triphosphate, hormone stimulation decreased with increasing Mg2+ concentrations and none was seen at 40 mM Mg2+. The findings suggest that hormone stimulation of adenylate cyclase is associated with Mg2+ activation of a 'high hormone affinity' responsive state dependent on triphosphoguanine nucleotide. The hormone effect on Mg2+ affinity fully accounts for hormone stimulation of adenylate cyclase at physiologically relevant concentrations.
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PMID:The role of Mg2+ in hormone stimulation of rat osteosarcoma adenylate cyclase. 693 17

Formycin 5'-triphosphate (FoTP), a fluorescent analog of ATP, is shown to be a substrate for the membrane-bound adenylate cyclase activity [ATP pyrophosphate-lyase (cyclizing), EC 4.6.1.1] from rat osteosarcoma cells. The formation of the adenylate cyclase reaction product, 3',5'-cyclic formycin monophosphate (cFoMP), was followed by the conventional radioimmunoassay (RIA) procedure used to detect cAMP and by an assay procedure in which the reaction product was separated from the substrate by reverse-phase high-pressure liquid chromatography (HPLC) and the reaction product was detected by fluorometry. Because the HPLC--fluorometric procedure can determine the amount of cFoMP present in the reaction mixture within 6 min, the enzymatic conversion of FoTP to cFoMP can be followed directly during the course of a typical 15-min incubation. The amount of cFoMP detected by this procedure was found to be within 2% of the values obtained by the RIA. The rate of product formation with FoTP was similar to that observed with ATP and the activity of the enzyme was enhanced about 5-fold with guanyl-5'-yl imidodiphosphate when either ATP or FoTP was used as the substrate. Kinetic studies revealed values for the Vmax of 120 pmol/min per mg of protein and apparent Km values of 220 microM with both substrates. In addition to suggesting that the recognition of the substrate by the adenylate cyclase may not require a specific chemical structure of the 5-membered ring of the base or a unique configuration about either the glycosyl or the C(5')-C(4') bond, the results of this study are consistent with the idea that the cytotoxicity observed with the adenosine analog formycin may be the result of its metabolism to cFoMP. Furthermore, these studies indicate that the fluorescent analog FoTP can be used, in combination with HPLC, to provide an alternative, nonradioactive direct method for the assay of adenylate cyclase catalytic activity.
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PMID:Formycin 5'-triphosphate, a fluorescent analog of ATP, as a substrate for adenylate cyclase. 694 Dec 84


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