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)

We have investigated the effects of PTH-induced desensitization on second messenger interactions in the rat osteosarcoma cell line ROS 17/2.8. Adenylate cyclase activation was assessed by accumulation of immunoassayable cAMP, and cytosolic calcium ion ([Ca2+]i) concentrations were measured in adherent perifused cells loaded with the Ca2(+)-sensitive bioluminescent protein aequorin. Preexposure to rat PTH-(1-34) [rPTH-(1-34); 10(-8) M for 48 h, then 10(-7) M for 24 h] dramatically reduced (by 85%) the cAMP response to fresh challenge [2 min; 10(-9)-10(-7) M rPTH-(1-34)], but the peak PTH-induced rise of [Ca2+]i was not diminished significantly (0-20%). Nevertheless, we did observe other changes in the PTH-induced [Ca2+]i response. Exposure of treated cells to (Bu)2cAMP nearly abolished the [Ca2+]i response to PTH (greater than 80% reduction), but had much less effect on the PTH-stimulated [Ca2+]i increment of the naive cells (less than 35% reduction). Treated cells also had a blunted [Ca2+]i response to PTH in the presence of low extracellular calcium (greater than 60% reduction), but in the naive cells, low extracellular Ca2+ did not significantly diminish the peak PTH-induced [Ca2+]i rise, although low extracellular Ca2+ dramatically reduced the area under this [Ca2+]i transient (greater than 50%). Low extracellular Ca2+ had no influence on the peak [Ca2+]i responses of treated cells to bradykinin or prostaglandin F2 alpha. Although the peak PTH-stimulated [Ca2+]i rise of treated cells in normal Ca2+ medium was not significantly attenuated, the time to half-maximum [Ca2+]i concentration was significantly increased (greater than 100%), and the area under the [Ca2+]i transient was diminished. These alterations in the [Ca2+]i response of treated cells were not observed upon challenge with bradykinin or prostaglandin F2 alpha. Thus, 1) the cAMP and [Ca2+]i responses of ROS 17/2.8 cells to rPTH-(1-34) are not obligatorily coupled; 2) the response of naive cells to PTH includes both the release of Ca2+ from intracellular stores and the entry of extracellular Ca2+; and 3) pretreatment of these cells with rPTH-(1-34) augments the dependence on Ca2+ entry during hormone rechallenge. We propose that the preserved PTH-stimulated [Ca2+]i rise in treated cells results partly from loss of cAMP-mediated inhibition of extracellular Ca2+ entry.
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PMID:Desensitization of rat osteoblast-like cells (ROS 17/2.8) to parathyroid hormone uncouples the adenosine 3',5'-monophosphate and cytosolic ionized calcium response limbs. 184 74

Chicken parathyroid hormone (cPTH) has been reported to stimulate adrenal steroidogenesis and to have unusual potency on traditional PTH target tissues. To evaluate these properties, chicken PTH-(1-88) has been expressed in Escherichia coli using a plasmid encoding a fusion protein which links together growth hormone, a factor Xa recognition site, and chicken PTH-(1-88). The growth hormone-cPTH fusion protein required the presence of 0.02% sodium dodecyl sulfate to remain in solution and be cleaved by factor Xa. The high performance liquid chromatography-purified recombinant cPTH-(1-88) and chemically synthesized cPTH-(1-34) had similar potency in rat osteosarcoma (ROS 17/2.8) cells, opossum kidney (OK) cells, and dispersed primary chicken kidney cells. The biologic potencies of cPTH-(1-34) and cPTH-(1-88) in radioreceptor binding and cAMP generation in both bone- and kidney-derived cell lines were less than those of human (h)PTH-(1-34). In dispersed chicken kidney cells, cAMP production by cPTH-(1-34) and cPTH-(1-88) was similar to that stimulated by human PTH-(1-34). No stimulation of steroidogenesis could be detected when recombinant chicken PTH-(1-88) was added to dispersed chicken adrenal cells. The biologic activity of recombinant chicken PTH-(1-88) purified from E. coli was comparable with that of chicken PTH-(1-88) expressed by mammalian COS cells. Thus, the full-length chicken PTH did not exhibit enhanced potency, when compared with human PTH in ROS 17/2.8, OK cell lines, and dispersed chicken kidney cells and did not demonstrate the novel steroidogenic action previously reported in adrenal cells. The successful production of chicken PTH-(1-88) will enhance our understanding of the structure-activity relationships for PTH, particularly the sequence-dependent metabolism of the hormone.
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PMID:Full-length chicken parathyroid hormone. Biosynthesis in Escherichia coli and analysis of biologic activity. 184 86

Pretreatment of UMR-106 cells (rat osteoblast like osteosarcoma cell line) with the protein kinase C(PK-C) activating phorbol ester, phorbol 12-myristate 13-acetate (PMA) results in a time dependent (1-12h) desensitization of PTH-stimulated cAMP production. Compared to controls, PMA-treated cells showed 50% decrease of PTH-stimulated cAMP production. PK-C inhibitor, H-7 significantly blocked this PMA-induced desensitization. PTH receptor binding, assessed with 125I-[Nle8,Nle18,Tyr34]PTH-(1-34) as radioligand, was decreased by about 20% in PMA-treated cells. H-7 treatment completely restored receptor binding in PMA-treated cells. These data suggest that PK-C might act directly on PTH receptor which is coupling to adenylate cyclase, and induce desensitization.
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PMID:Phorbol ester induces desensitization of PTH-stimulated cyclic AMP production by decreasing the PTH receptor binding in UMR-106 cells. 185 Oct 4

The mechanisms by which PTH and thrombin mobilize intracellular Ca2+ (Cai2+) were examined in UMR 106-H5 rat osteosarcoma cells. Bovine PTH-(1-34) (24 pM to 240 nM) produced a dose-dependent increase in Cai2+ (EC50, 3 nM), which returned to baseline within 75 sec. Human alpha-thrombin produced an increase in Cai2+ (ECmax, 10 U/ml) which was similar to that of PTH with respect to both magnitude and time course. Chelation of extracellular calcium with 5.0 mM EGTA did not alter the Cai2+ response to either PTH or thrombin. When added together at maximally effective concentrations, PTH and thrombin produced additive effects on Cai2+ in the presence and absence of EGTA. The additive effects of PTH and thrombin on Cai2+ were confirmed at the single cell level, using laser-based image analysis. Bradykinin (1 microM) produced a significant increase in Cai2+ in UMR 106-H5 cells which was of lesser magnitude than the peak 2- to 3-fold increase elicited by PTH or thrombin. Preexposure of cells to 10 U/ml thrombin for 2 min abolished the Cai2+ response to bradykinin, whereas preexposure to 240 nM PTH had no effect on the Cai2+ response to bradykinin. Thrombin elicited a rapid increase in the accumulation of 3H-labeled inositol phosphates (IP2 and IP3) in UMR 106-H5 cells, with increases in [3H]1,4,5-IP3 detectable as early as 15 sec after the addition of thrombin. Bradykinin increased [3H]IP production to a lesser extent than thrombin, whereas PTH neither increased [3H]IP accumulation nor potentiated the [3H]IP response to thrombin. The results suggest that thrombin and bradykinin mobilize Cai2+ from a shared IP3-responsive calcium pool, whereas PTH may use signals in addition to 1,4,5-IP3 to mobilize calcium from a distinct cellular calcium pool. Alternatively, specific calcium compartmentalization exists, and there is differential coupling of these agonists to the 1,4,5-IP3/Cai2+ pathway.
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PMID:Thrombin and parathyroid hormone mobilize intracellular calcium in rat osteosarcoma cells by distinct pathways. 187 83

Micromolar concentrations of aluminum sulfate consistently stimulated [3H]thymidine incorporation into DNA and increased cellular alkaline phosphatase activity (an osteoblastic differentiation marker) in osteoblast-line cells of chicken and human. The stimulations were highly reproducible, and were biphasic and dose-dependent with the maximal stimulatory dose varied from experiment to experiment. The mitogenic doses of aluminum ion also stimulated collagen synthesis in cultured human osteosarcoma TE-85 cells, suggesting that aluminum ion might stimulate bone formation in vitro. The effects of mitogenic doses of aluminum ion on basal osteocalcin secretion by normal human osteoblasts could not be determined since there was little, if any, basal secretion of osteocalcin by these cells. 1,25 Dihydroxyvitamin D3 significantly stimulated the secretion of osteocalcin and the specific activity of cellular alkaline phosphatase in the human osteoblasts. Although mitogenic concentrations of aluminum ion potentiated the 1,25 dihydroxyvitamin D3-dependent stimulation of osteocalcin secretion, they significantly inhibited the hormone-mediated activation of cellular alkaline phosphatase activity. Mitogenic concentrations of aluminum ion did not stimulate cAMP production in human osteosarcoma TE 85 cells, indicating that the mechanism of aluminum ion does not involve cAMP. The mitogenic activity of aluminum ion is different from that of fluoride because (a) unlike fluoride, its mitogenic activity was unaffected by culture medium changes; (b) unlike fluoride, its mitogenic activity was nonspecific for bone cells; and (c) aluminum ion interacted with fluoride on the stimulation of the proliferation of osteoblastic-line cells, and did not share the same rate-limiting step(s) as that of fluoride. PTH interacted with and potentiated the bone cell mitogenic activity of aluminum ion, and thereby is consistent with the possibility that the in vivo osteogenic actions of aluminum ion might depend on PTH. In summary, low concentrations of aluminum ion could act directly on osteoblasts to stimulate their proliferation and differentiation by a mechanism that is different from fluoride.
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PMID:Aluminum stimulates the proliferation and differentiation of osteoblasts in vitro by a mechanism that is different from fluoride. 192 12

We showed recently that the initial peak cytosolic ionized calcium ([Ca2+]i) response to PTH (2-min exposure) is preserved relative to the cAMP response in osteoblast-like rat osteosarcoma cells (ROS 17/2.8) desensitized by 72-h exposure to PTH. We attempted in the present studies to determine the mechanisms for preservation of the [Ca2+]i response and to explore the effects of longer PTH rechallenges. The [Ca2+]i response to a 20-min perifusion with rat PTH [rPTH-(1-34)] was monitored by aequorin luminescence in both naive and PTH-desensitized ROS 17/2.8 cells. The responses of both naive and desensitized cells consisted of two phases: an initial peak, followed by an intermediate plateau that was sustained in the presence of PTH. We observed in the naive cell populations synchronous oscillations in [Ca2+]i concentration during this second phase (amplitude, 10-60 nM; frequency, 1-3/100 sec). These oscillations were maintained through extracellular calcium (EC Ca2+) entry; the initial peak was the result of Ca2+ release from intracellular stores. In desensitized cells, these two phases could not be clearly separated with respect to Ca2+ source, but, as we showed before, exhibited an enhanced dependence on EC Ca2+ entry for the response to PTH. Nevertheless, in the desensitized cells, the sustained [Ca2+]i response was diminished in magnitude and showed little oscillatory behavior. Brief exposure to neomycin sulfate, an inhibitor of phosphoinositide turnover, attenuated the PTH-induced [Ca2+]i rise in both naive and desensitized cells. Protein kinase-C activity did not appear to be required for either phase of the PTH-induced [Ca2+]i response. Exposure to cholera toxin attenuated the [Ca2+]i response to hormone in both naive and desensitized cells, more markedly in the latter. Cholera toxin treatment dramatically increased basal cAMP levels in both cell preparations; PTH-stimulated cAMP production was unchanged in naive cells, but increased nearly 4-fold in desensitized cells. We propose that the preserved PTH-induced peak [Ca2+]i rise in desensitized cells results primarily from the diminished regulation of EC Ca2+ entry by the cAMP response limb. The attenuated sustained oscillatory behavior observed in desensitized cells upon rechallenge with hormone may be the result of reduced phosphoinositide turnover and reduced Ca2+-stimulated Ca2+ release. Thus, the [Ca2+]i response to PTH in osteoblast-like cells is complex and modulable and seems to provide a number of ways to regulate intracellular metabolism under various conditions. We speculate that this plasticity of the [Ca2+]i response to PTH is related to the pleiotropic actions of the hormone on cells of the osteoblast lineage.
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PMID:Parathyroid hormone (PTH)-induced intracellular Ca2+ signalling in naive and PTH-desensitized osteoblast-like cells (ROS 17/2.8): pharmacological characterization and evidence for synchronous oscillation of intracellular Ca2+. 195 83

Previous studies demonstrated that tetracyclines (TCs) inhibited Type I (interstitial) and Type IV collagenases from different mammalian sources, but there are no studies of TCs effect on osteoblast collagenase (C'ase). The present study assessed the effect of TCs on C'ase activity from osteosarcoma cells. Semiconfluent UMR 106-01 cells were treated with minocycline or chemically modified tetracycline (CMT) at 10 micrograms/ml in the presence or absence of bovine parathyroid hormone, b-PTH-(1-34), at 10(-7)M for 24, 48, 72 and 96 hours. Media were collected at each time point and assayed following concentration, destruction of TIMP by reduction/alkylation, activation with p-aminophenylmercuric acetate (APMA), and incubation with 3H-methylated collagen substrate (approximately 100,000 dpm) at 27 degrees C for 18 hours. Collagenase activity from media was also analyzed by SDS-PAGE and fluorography. b-PTH appeared to stimulate C'ase 60-fold compared to controls; minocycline and CMT reduced PTH stimulation approximately 65% and 90%, respectively. Moreover, TCs incubated with partially purified osteoblastic collagenase directly, inhibited its activity in vitro as indicated by a lack of degradation to collagen alpha A chains. Therefore, TCs ability to inhibit bone resorption in organ culture, reported previously, may be due, in part, to reduced osteoblast collagenase activity.
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PMID:The effect of tetracyclines on collagenase activity in UMR 106-01 rat osteoblastic osteosarcoma cells. 196 17

Purified native forms of human parathyroid hormone-related peptide (PTHrp) have recently been reported to display biological activities characteristic of transforming growth factor beta (TGF-beta). The TGF-beta-like property of PTHrp may reside within the amino N-terminal PTH-receptor binding region of the polypeptide, since a synthetic analog corresponding to amino acids 1-36 of human PTHrp is as active as purified native PTHrp in bioassays specific to TGF-beta. Complete lack of structural similarity between PTHrp and TGF-beta prompted us to address the question whether copresence of the TGF-beta-like and PTH-like biological activities in the N-terminal sequence of the PTHrp molecule is a general phenomenon observable with different N-terminal PTHrp peptides of varying amino acid chain length in a variety of target cells that respond in defined ways to TGF-beta in vitro. Two forms of synthetic N-terminal human PTHrp, PTHrp-(1-34) and [Tyr40]PTHrp-(1-40), which are fully active in conventional assays for PTH/PTHrp, were tested for effects in three in vitro bioassay systems for TGF-beta: 1) stimulation, and 2) inhibition, respectively, of epidermal growth factor-dependent soft-agar colony formation of either normal rat kidney-derived fibroblasts (NRK 49F) or human lung carcinoma cells (A549); and 3) biosynthesis of metabolically labeled fibronectin in both NRK 49F cells and clonal osteoblastic rat osteosarcoma cells (ROS 17/2.8). Human TGF-beta over the dose range of 2.5-80 pM significantly stimulated or inhibited soft-agar colony formation of either NRK 49F or A549 cells, respectively, and caused a severalfold increase in biosynthetically labeled [35S]fibronectin in NRK 49F and ROS 17/2.8 cells. In contrast, none of PTHrp-(1-34), [Tyr40]PTHrp-(1-40), and synthetic human PTH-(1-34), each tested at 0.1-10 nM, displayed detectable biological activity in any of the three assay systems. In addition, covalent cross-linking of intact NRK 49F and ROS 17/2.8 cells with either [125I]TGF-beta or 125I-[Tyr40] PTHrp-(1-40) revealed the presence of several distinct affinity-labeled receptor species for TGF-beta in both cell types and the 80K PTH/PTHrp receptors in ROS 17/2.8 cells. The affinity-labeled TGF-beta receptor species were insensitive to excess PTHrp and PTH peptides, and the 80K PTH/PTHrp receptors were insensitive to excess TGF-beta, indicating that PTHrp and TGF-beta do not cross-react with respect to receptor binding for interaction with these cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:On the transforming growth factor beta-like activity of synthetic polypeptides comprising the amino-terminal sequence of human parathyroid hormone-related peptide. 199 44

Monoclonal and polyclonal antibodies recognizing human parathyroid hormone-like protein (PTHLP) have been produced using a series of recombinant and synthetic PTHLP peptides. These antibodies have been used to develop a two-site immunometric enzyme immunoassay which detects PTHLP[1-87] and PTHLP[1-141] but not PTH. The immunoassay detected PTHLP in extracts of squamous carcinomas and normal tissues at concentrations from 7-515 ng PTHLP[1-87]/mg protein. Immunoblotting of the extract which showed the highest immunoreactivity, a squamous carcinoma of the lung from a patient with hypercalcemia, revealed a major band having an apparent mol wt of 26,500 and several other higher mol wt bands. Similar polypeptides were observed by immunoblotting cell extracts from a cell line, SCaBER, which secretes immunoreactive PTHLP into its medium and also from tumors in nude mice derived from this cell line. Chaotropic agents did not alter the immunoblotting pattern, and antibodies to three different epitopes of PTHLP recognized these bands, indicating PTHLP expression in the extracts. Immunohistochemical staining of normal human tissue with these antibodies revealed several PTHLP-containing tissues and confirmed the results of the immunoassay, suggesting a paracrine role for PTHLP. Staining was observed in several neoplastic tissues including squamous cell carcinomas, lung carcinoma, bladder carcinoma, osteogenic sarcoma, and adenocarcinoma of the colon.
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PMID:Immunological identification and distribution of parathyroid hormone-like protein polypeptides in normal and malignant tissues. 200 11

The interaction of epidermal growth factor (EGF) and PTH with UMR 106 osteosarcoma cells was examined biochemically and morphologically. EGF inhibited PTH-stimulated adenylate cyclase activity in association with a reduction in PTH receptors and a decrease in the activity of the stimulatory guanyl nucleotide-binding protein (Gs). Universal inhibition of agonist-stimulated adenylate cyclase activity did not occur, inasmuch as EGF did not reduce prostaglandin E2-enhanced enzyme activity. The influence of EGF on PTH action correlated with its effect in the UMR 106 cell population of promoting entry into the cell cycle. Morphological analysis with radioautography indicated that both EGF and PTH receptors could be colocalized to certain UMR 106 cells, but that each were more abundantly distributed over discrete UMR 106 cell types. Based on the distribution of [3H]thymidine incorporation, EGF receptors were predominantly found over rapidly proliferating cells, whereas PTH receptors were most densely distributed over more quiescent cells. The results indicate that EGF and PTH receptors are localized over specific types within the heterogeneous population of UMR 106 cells and suggest that EGF may reduce PTH action in these cultures by enhancing the proliferation of progenitor cells lacking PTH receptors and reducing differentiation in this cell population, which leads to PTH receptor-enriched target cells. EGF and PTH receptors may, therefore, be useful as probes to examine both functional interactions and differentiation pathways among cells in osteoblast models in vitro and perhaps in vivo.
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PMID:Biochemical and morphological analysis of the interaction of epidermal growth factor and parathyroid hormone with UMR 106 osteosarcoma cells. 203 59


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