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)

Parathyroid hormone (PTH), a major regulator of mineral ion metabolism, and PTH-related peptide (PTHrP), which causes hypercalcemia in some cancer patients, stimulate multiple signals (cAMP, inositol phosphates, and calcium) probably by activating common receptors in bone and kidney. Using expression cloning, we have isolated a cDNA clone encoding rat bone PTH/PTHrP receptor from rat osteosarcoma (ROS 17/2.8) cells. The rat bone PTH/PTHrP receptor is 78% identical to the opossum kidney receptor; this identity indicates striking conservation of this receptor across distant mammalian species. Additionally, the rat bone PTH/PTHrP receptor has significant homology to the secretin and calcitonin receptors but not to any other G protein-linked receptor. When expressed in COS cells, a single cDNA clone, expressing either rat bone or opossum kidney PTH/PTHrP receptor, mediates PTH and PTHrP stimulation of both adenylate cyclase and phospholipase C. These properties could explain the diversity of PTH action without the need to postulate other receptor subtypes.
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PMID:Expression cloning of a common receptor for parathyroid hormone and parathyroid hormone-related peptide from rat osteoblast-like cells: a single receptor stimulates intracellular accumulation of both cAMP and inositol trisphosphates and increases intracellular free calcium. 131 66

The heparan sulphate (HS) proteoglycans associated with the cell layer of a rat osteosarcoma cell line [UMR 106-01 (BSP)] were compared with similar cell-associated proteoglycans from other cells, and their interaction with the plasma membrane was studied. HS proteoglycans were metabolically labelled by incubation of cell cultures with [3H]glucosamine or [3H]leucine and [35S]sulphate. HS proteoglycan core protein preparation generated by heparitinase digestion of the major species from UMR 106-01 (BSP) cells co-migrated on PAGE with identical preparations from ovarian granulosa cells and parathyroid cells (at approximately 70 kDa). The hydrophobic nature of the major HS proteoglycans from these diverse cell lines, based on elution position from octyl-Sepharose, were also comparable. Linkages of the HS proteoglycan to the cell membrane were investigated by labelling plasma-membrane preparations with a lipid soluble photoactivatable reagent, 3-(trifluoromethyl)-3- (m-[125I]iodophenyl)diazirine (TID), which selectively labels plasma-membrane-spanning peptide domains. Purified HS proteoglycan from UMR 106-01 (BSP) cells was shown to be accessible to the [125I]TID, and the core protein portion of the molecule was labelled, confirming its close association with the plasma membrane. Approx. 36% of 35S-labelled HS proteoglycans were released from the cell surface by phospholipase C (Bacillus thuringiensis), which specifically cleaves phosphatidylinositol-linked proteins. In the presence of insulin, the metabolism of the phospholipase C-sensitive population was unaltered; however, release of the phospholipase C-insensitive population into the medium was increased. These data indicate that a subpopulation of HS proteoglycans are covalently bound to the plasma membrane by a glycosylphosphatidylinositol structure, with the remainder representing those species directly inserted into the plasma membrane via a hydrophobic peptide domain. These observations are similar to those reported for ovarian granulosa cells [Yanagishita & McQuillan (1989) J. Biol. Chem. 264 17551-17558], and thus may represent a general phenomenon for many cell types.
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PMID:Plasma-membrane-intercalated heparan sulphate proteoglycans in an osteogenic cell line (UMR 106-01 BSP). 163 8

We report the identification of cell surface glycoproteins that bind transforming growth factor-beta (TGF-beta) in an isoform-specific manner, and are distinct from TGF-beta receptors I and II or the TGF-beta binding proteoglycan beta-glycan. The novel TGF-beta binding proteins have been identified in various cell lines including fetal bovine heart endothelial cells and MG-63 human osteosarcoma cells. They include proteins of 90-100 and 180 kDa that preferentially bind TGF-beta 1 (KD 0.1-0.2 nM) and proteins of 60 and 140 kDa that preferentially bind TGF-beta 2 (KD 0.5-1 nM). The 180-kDa TGF-beta 1 binding protein and the 60- and 140-kDa TGF-beta 2 binding proteins can be released from the cell surface by treatment with phosphatidylinositol-specific phospholipase C, suggesting that these proteins are attached to the plasma membrane through a phosphatidylinositol anchor. The expression of these three proteins as well as their sensitivity to phosphatidylinositol-specific phospholipase C is cell line-dependent. The 90-100-kDa TGF-beta 1 binding proteins are components of a 190-kDa disulfide-linked complex. The structural properties of these proteins and their high affinity and selectivity for different TGF-beta isoforms defines them as a novel class of cell surface TGF-beta binding proteins.
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PMID:Isoform-specific transforming growth factor-beta binding proteins with membrane attachments sensitive to phosphatidylinositol-specific phospholipase C. 165 36

The antigen detected by monoclonal antibodies reacting with human osteosarcoma-associated antigen was shown to be a phosphatidyl-inositol (PI)-glycan-anchored protein, which can be released from the cell surface by PI-specific phospholipase C-treatment. The antigen detected by 2D3 and 2H10 antibodies exhibited alkaline phosphatase activity. Both antibodies strongly reacted with bone-type alkaline phosphatase. However, importantly, immunohistochemical analysis demonstrated that 2D3 and 2H10 did not react with alkaline phosphatase present in kidney or liver. In addition, neither placental nor intestinal alkaline phosphatase was recognized by 2D3 and 2H10 antibodies. These results indicated that two monoclonal antibodies, 2D3 and 2H10, are highly specific for bone-type alkaline phosphatase and can distinguish bone alkaline phosphatase from liver alkaline phosphatase in spite of the fact that liver and bone alkaline phosphatase are encoded by the same gene.
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PMID:Detection of bone-type alkaline phosphatase by monoclonal antibodies reacting with human osteosarcoma-associated antigen. 171 40

Human alpha-thrombin is known to elicit bone resorption in vitro and has been proposed as a mediator of increased bone turnover in inflammatory diseases. We used UMR 106-H5 rat osteoblast-like osteosarcoma cells to explore the signal transduction mechanism utilized by thrombin in bone. Thrombin produced a dose-dependent increase in the accumulation of [3H]inositol phosphates (IPs) in UMR 106-H5 cells prelabeled with [3H]myo-inositol (EC50 15 U/ml). In saponin-permeabilized cells, GTP gamma S increased [3H]IP production, whereas GDP beta S inhibited the response to both GTP gamma S and thrombin, indicating involvement of a G-protein in thrombin action. Thrombin produced a dose-dependent increase in intracellular free calcium (Cai2+) in UMR 106-H5 cells (EC50 1 U/ml; maximal increase 4-fold), as well as a small (20%) increase in [3H]thymidine incorporation. Treatment of UMR 106-H5 membranes with pertussis toxin (PT) and [32P]NAD+ resulted in labeling of a 40-kDa protein. However, pretreatment of cells with a dose of PT sufficient to produce maximal endogenous labeling of this protein failed to influence thrombin action on IP accumulation, Cai2+, or [3H]thymidine incorporation. In contrast, PT treatment of CCL39 hamster lung fibroblasts significantly blunted thrombin-stimulated [3H]IP accumulation and [3H]thymidine incorporation. These results suggest that thrombin raises Cai2+ in UMR 106-H5 cells by activating polyphosphoinositide-specific phospholipase C. Whereas in fibroblasts and platelets, thrombin receptors appear to couple to both PT-sensitive and PT-insensitive G-proteins, only a PT-insensitive G-protein appears to mediate thrombin action in UMR 106-H5 cells. Either these cells lack the relevant PT-sensitive G-protein or they possess thrombin receptors that selectively couple to a pertussis toxin-insensitive G-protein.
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PMID:Thrombin stimulates inositol phosphate production and intracellular free calcium by a pertussis toxin-insensitive mechanism in osteosarcoma cells. 215 36

Phosphatidylinositol (PI)-linked forms of surface molecules have been hypothesized to mediate the initial stages of cell adhesion or signal transduction. We report evidence for the occurrence of a functional PI-linked subset of cell surface fibronectin receptors (FNR). Treatment of human MG63 osteosarcoma cells or primary chicken embryo fibroblasts (CEF) with PI-specific phospholipase C (PI-PLC) reduced cell surface FNR expression by 30% as detected by immunofluorescence. PI-PLC treatment of cell membranes purified from [35S]methionine-labeled CEF or MG63 cells led to a similar loss of membrane-associated immunoprecipitable FNR from the pelleted membranes, while such treatment led to the appearance of FNR in the supernatant of treated MG63 membranes. Biosynthetic labeling of CEF FNR with [3H]palmitate and [3H]ethanolamine demonstrated the acylation and putative PI linkage of avian FNR subunits. PI-PLC treatment of CEF and MG63 cells also reduced fibronectin-specific adhesion in a short-term in vitro assay, suggesting that the avian and human FNR occur in PI-linked isoforms which appear to contribute to cell adhesion to fibronectin.
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PMID:Evidence for phosphatidylinositol-linked forms of human and avian fibronectin receptors. 216 5

As assessed by incorporation into liposomes and by adsorption to octyl-Sepharose, the integrity of the membrane anchor for the purified tetrameric forms of alkaline phosphatase from human liver and placenta was intact. Any treatment that resulted in a dimeric enzyme precluded incorporation and adsorption. An intact anchor also allowed incorporation into red cell ghosts. The addition of hydrophobic proteins inhibited incorporation into liposomes to varying degrees. Alkaline phosphatase was 100% releasable from liposomes and red cell ghosts by a phospholipase C specific for phosphatidylinositol. There was no appreciable difference in the rates of release of placental and liver alkaline phosphatases, although both were approximately 250 x slower in liposomes and 100 x slower in red cell ghosts than the enzyme's release from a suspension of cultured osteosarcoma cells. Both enzymes were released by phosphatidylinositol phospholipase C as dimers and would not reincorporate or adsorb to octyl-Sepharose. However, the enzyme incorporated, resolubilized by Triton X-100, and cleansed of the detergent by butanol treatment was tetrameric by gradient gel electrophoresis, was hydrophobic, and could reincorporate into fresh liposomes. A monoclonal antibody to liver alkaline phosphatase inhibited the enzyme's incorporation into liposomes, and abolished its release from liposomes and its conversion to dimers by phosphatidylinositol phospholipase C.
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PMID:Incorporation of human liver and placental alkaline phosphatases into liposomes and membranes is via phosphatidylinositol. 217 99

1,25-dihydroxycholecalciferol (1,25(OH)2D3) rapidly affects calcium (Ca2+) transport in several cell systems, suggesting physiological actions independent of genomic activation. To test this hypothesis, we studied immediate to early effects (0.5-300 sec) of 1,25(OH)2D3 on cytosolic Ca2+ [Ca2+]i in single osteogenic sarcoma ROS 17/2.8 cells loaded with fura-2. An acute rise in [Ca2+]i was observed in 40% of the cells following addition of 1,25(OH)2D3, with a threshold concentration of 10(-11) M. In most cases, the [Ca2+]i rise was transient, with return to baseline within 1 min; less frequently a more prolonged effect was observed, with variable recovery times. 25-hydroxycholecalciferol (25(OH)D3) reproduced the effect of 1,25(OH)2D3 on [Ca2+]i, with equal potency and similar responses, whereas 24,25-dihydroxycholecalciferol, 1 alpha-hydroxycholecalciferol, and 22 oxa-1,25(OH)2D3 were not effective. 1,25(OH)2D3 also increased [Ca2+]i in ROS 24/1 cells, which are defective of receptors for the vitamin D metabolites. At high doses (10(-8)-10(-7) M) of 1,25(OH)2D3 the [Ca2+]i rise in ROS 17/2.8 cells was due to both influx of extracellular Ca2+ and release of Ca2+ from intracellular stores, as the effect was only partially inhibited by Ca2(+)-channel blockade by nifedipine. At low doses (10(-9)-10(-10) M), the effect was entirely dependent on extracellular Ca2+. 1,25(OH)2D3 also increased the production of inositol 1,4,5 trisphosphate (Ins(1, 4, 5)P3) and diacylglycerol, at a threshold dose of 10(-9) M, indicating activation of phospholipase C (PLC). In two thirds of the cells studied, a second addition of 1,25(OH)2D3 within 5 min to cells prestimulated with equimolar doses of the vitamin D metabolite resulted in a [Ca2+]i transient of higher amplitude than the first, a phenomenon occurring at all doses of the hormone, and associated with production of Ins(1, 4, 5)P3. This response amplification was not produced by 25(OH)D3, and pretreatment with 1 alpha(OH)D3 did not significantly enhance 1,25(OH)2D3-induced production of Ins(1, 4, 5)P3. In conclusion, activation of the Ca2+ message system by vitamin D metabolites is a rapid, nongenomic effect; 1,25(OH)2D3 specifically activates both PLC and dihydropyridine-sensitive Ca2+ channels, and "primes" the cells to respond with an enhanced [Ca2+]i rise to a subsequent homologous stimulation; the presence of both the 1 alpha and 25 hydroxyl groups is necessary to express the full hormonal action of vitamin D on [Ca2+]i.
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PMID:Nongenomic activation of the calcium message system by vitamin D metabolites in osteoblast-like cells. 222 14

Recent evidence suggests that guanyl nucleotide binding (G) proteins are involved in receptor-mediated bone resorption and in osteoblastic function, but the nature of the G protein coupled to effectors that are involved in these skeletal effects is unknown. The purposes of this study were to determine (1) whether a G protein mediates activation of phosphoinositide-specific phospholipase C in UMR-106 rat osteosarcoma cells, and (2) whether parathyroid hormone (PTH) and a PTH-like protein (PLP) associated with humoral hypercalcemia of malignancy promote GTP-dependent PIP2 hydrolysis. Addition of GTP (10(-4) M) or guanosine 5'-0-(3-thiotriphosphate, GTP gamma S, 10(-5) M) to membranes prepared from UMR-106 cells labeled with [3H]myo-inositol increased both [3H]inositol trisphosphate (IP3) and [3H]inositol bisphosphate (IP2) formation. The increases in [3H]IP2 and [3H]IP3 produced by GTP were 8.6- and 4.3-fold, respectively. GTP gamma S produced a 17.6- and 11.9-fold increase in [3H]IP2 and [3H]IP3, respectively. The stimulatory effects of GTP and GTP gamma S were dose dependent (GTP ED50 = 3.9 x 10(-6) M; GTP gamma S ED50 = 2.5 x 10(-7) M) and progressive over 10 minutes and required the presence of Mg2+.GTP (10(-4) M) and GTP gamma S (10(-5) M) decreased membrane [3H]phosphoinositides concomitantly with increased [3H]IP2 and [3H]IP3. The GDP analog guanosine 5'-O-(2-thiodiphosphate, GDP beta S) alone did not alter [3H]IP2 or [3H]IP3 production but at 10(-4) M blocks the stimulatory effects of GTP and GTP gamma S. NaF (3 x 10(-2)M) produced a 2.8- and 2.0-fold stimulation of [3H]IP2 and [3H]IP3, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:G protein-dependent activation of a phosphoinositide-specific phospholipase C in UMR-106 osteosarcoma cell membranes. 255 86

A wide spectrum of prostaglandins (PG) stimulate both the production of cyclic AMP and an increase in free cytosolic Ca2+ concentration [( Ca2+]i) in the osteogenic osteosarcoma cell line, UMR-106-01, which has characteristics compatible with osteoblasts. Using PG-stimulated determinations of the second messengers cyclic AMP and [Ca2+]i, a method for classification of PG receptors is presented. UMR-106-01 cells demonstrate three subclasses of PG receptors. One receptor interacts with PGF2 alpha, PGD2, and thromboxane B2 (TxB2) to increase [Ca2+]i. A second receptor binds PGE2, PGE1, PGI2, PGA2 and 6-oxo-PGF1 alpha to increase [Ca2+]i by stimulation of a second separate phospholipase C pool. A third receptor accepts PGE2, PGE1, PGA2, PGI2 and to a lesser extent PGF2 alpha, PGD2 and TxB2 to increase cyclic AMP. Such a classification system may be applicable to other cells responding to multiple PGs by inducing changes in cellular second messengers.
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PMID:Classification of prostaglandin receptors based on coupling to signal transduction systems. 255 9


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