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)

Cell-attached patch clamp experiments revealed 13-20 pS Na(+)-conducting channels active at normal resting potentials (-28 +/- 1 mV; +/- SEM; 7 cells) in the rat osteosarcoma cell line, ROS 17/2.8. These channels were not blocked by tetrodotoxin, Cd2+, verapamil, or nifedipine. Replacing all cations in the patch pipette except Ca2+ with tetraethylammonium (TEA+) abolishes channel activity; but adding TEA+ to a pipette solution containing only Na+ does not. Depolarization was not necessary to activate these channels, and the open times were much longer than the millisecond open times characteristic of Na+ channels in excitable cells. Current-voltage curves reconstructed from mean single channel currents and mean channel open times resemble L-type Ca2+ current-voltage curves obtained from whole-cell experiments, with current peaks shifted to resting or more hyperpolarized potentials. The voltage sensitivity of these channels has implications on membrane potential stability and on the hyperpolarizing membrane potential spiking activity exhibited by ROS 17/2.8 cells.
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PMID:Continuously active sodium channels in osteoblastic ROS 17/2.8 cells. 166 Jul 43

Trains of long-duration "action potentials" were induced by Ba2+ in osteoblast-like rat osteosarcoma cells (ROS 17/2.8), under current clamp and voltage clamp. Large depolarizing pulses were seen in microelectrode measurements at 37 degrees C following the addition of 10 or 20 mM Ba2+ to physiological bathing medium. Application of BAY K 8644 resulted in the onset of the pulses at earlier times and at more negative potentials. The pulses were blocked by nifedipine and Cd2+, but not by Ni2+. Large inward current pulses were seen in whole-cell patch technique voltage-clamp measurements at 37 degrees C in the presence of from 10 to 110 mM Ba2+ in the bathing medium. The current pulses were not seen at 22 degrees C in the presence of 110 mM Ba2+, but could be induced by BAY K 8644. These pulses were not blocked by TTX, but were blocked by nifedipine, Cd2+, Zn2+, Co2+, and by an increase in bathing [Ca2+]. The shape and frequency of the current pulses were the same as for voltage pulses under current clamp. A model that can explain these observations involves opening of L-type Ca2+ channels in a voltage-independent manner by cytosolic Ba2+ via a screening of Ca2+ from sites that produce either inactivation or a lower probability of opening in the activated state. There would be a closing of these channels at higher [Ba2+] as Ba2+ is forced onto these sites. A refractory period is also required to give repeated pulses of openings.
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PMID:Ba(2+)-induced action potentials in osteoblastic cells. 174 4

ROS 17/2.8 cells, a cloned rat osteosarcoma cell line, are exceptionally sensitive to the cytotoxic effects of cadmium. This sensitivity is associated with the inability of this metal to induce the synthesis of metallothionein, a transition metal-binding protein, which detoxifies this metal by its sequestration. Sodium butyrate induces the synthesis of metallothionein in these cells in a concentration-dependent manner. Treatment with this agent also significantly increases the resistance of these cells to the cytotoxic effects of cadmium and the protective effect of butyrate is reversed upon its removal from culture medium. Butyrate treatment did not significantly alter the accumulation of cadmium by these cells. Hence, the increased synthesis of metallothionein in butyrate-treated cells is not due to increased cellular uptake of cadmium. Inhibition of DNA synthesis due to butyrate was not a sufficient condition to alter metallothionein synthesis or to protect against Cd-induced cytotoxicity. Equivalent inhibition of DNA synthesis with hydroxyurea failed to increase metallothionein synthesis in cadmium-treated cells. These results indicate that modulation of metallothionein gene expression in this cell line is the critical factor in determining cellular sensitivity to the cytotoxic effects of cadmium.
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PMID:Effect of sodium butyrate on metallothionein induction and cadmium cytotoxicity in ROS 17/2.8 cells. 199 66

The overall biocompatibility characteristics of metallic implants are important considerations in orthopedic surgery. A review of the literature shows very few reports of neoplasms in association with metallic implants. This case report demonstrates osteogenic sarcoma at the site of a Smith-Petersen nail that had been implanted for nine years in a 65-year-old woman for fixation of a femoral neck fracture. Gross examination revealed debris at the tumor site, with a concentration of 14 ppm of nickel within the tumor tissue. Experimental investigations support the possibility of neoplastic induction by heavy metals, particularly cobalt, cadmium, and nickel. Circumstantial evidence shows osteogenic sarcoma that developed at the site of this device, possibly in response to metal or factors at the site of metal.
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PMID:Metal-induced sarcoma. A case report and literature review. 240 70

Whole cell patch clamp studies on osteoblast-like rat osteosarcoma cells (ROS 17/2.8) show the existence of L-type calcium channels in the cell membrane. Measurements were carried out at both 21 and 37 degrees C. With isotonic CsCl in the pipette and a bathing medium containing either 110 or 10 mM Ba2+, a strong depolarizing pulse was required to activate an inward current. The current-voltage relationship (I-V) of this inward current showed a maximum amplitude near +30 mV at 21 and 37 degrees C, with 110 mM Ba2+ in the bathing medium, and near +10 mV at 37 degrees C with 10 mM Ba2+. At both 21 and 37 degrees C the dihydropyridine, BAY K 8644 (2 microM), increased this current and shifted the I-V maximum to less positive potentials, while nifedipine (5 microM) reduced the current. Cd2+ (50 microM) and Co2+ (100 microM) blocked the current. At 21 degrees C the measured inward current showed a slow inactivation, with a time constant of some hundreds of milliseconds. At 37 degrees C, inactivation was considerably faster. The current was suppressed by holding the membrane potential more positive than -30 mV. These data are strong evidence that ROS 17/2.8 cells have a significant number of 'L-type' calcium channels.
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PMID:Osteoblastic cells have L-type calcium channels. 247 37

Epidemiological, experimental and clinical data indicate that cadmium and lead are osteotoxins in man and other species. The relative sensitivities of a clonal human osteosarcoma cell line (HOS TE 85) and a clonal rat osteosarcoma cell line (ROS 17.28) to the cytotoxic effects of cadmium and lead were tested in serum-free media without added growth factors. The rat osteosarcoma cells were more sensitive to cadmium with cytotoxicity and inhibition of proliferation at 0.25 versus 0.75 and 1.0 mumol l-1 cadmium, respectively, for human osteosarcoma cell lines. The lower sensitivity to cadmium of human osteosarcoma cells is attributed, at least partly, to induction of metallothionein synthesis by cadmium and zinc in this cell line; in the rat osteosarcoma cell line, they do not induce metallothionein synthesis. Human osteosarcoma cells were more sensitive than rat osteosarcoma cells to lead with inhibition (IC50) of proliferation at 4 mumol l-1 lead and cytotoxicity at 20 versus 6 and over 20 mumol l-1 lead, respectively, for these variables in rat osteosarcoma cells. Both cell lines attained the highest lead concentration in the 15,000 x g (mitochondrial) fraction. The lead in the mitochondrial, microsomal, nuclear and cytosolic fractions of the human cell line did not decrease during 24 h post-washout. Binding of lead was much less stable in the less sensitive rat cells, with 50-100% loss of mitochondrial, microsomal and nuclear lead during 24 h post-washout.
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PMID:Osteotoxicity of cadmium and lead in HOS TE 85 and ROS 17/2.8 cells: relation to metallothionein induction and mitochondrial binding. 840 Jul 64

A number of thiosemicarbazones have been tested previously and herein are included three bis(thiosemicarbazones) for comparison to the previous derivatives. In general the uncomplexed thiosemicarbazones were more potent in the cytotoxic screens than the bis(thiosemicarbazone) except in the murine L1210 and the human colon SW480 screens. Mode of action studies have only demonstrated slight differences in the effects of the two types of compounds on nucleic acid metabolism. The symmetrical and unsymmetrical bis(thiosemicarbazones) complexes of copper, nickel, zinc, and cadmium have been examined to compare them to the heterocyclic N(4)-substituted thiosemicarbazones metal complexes. These new derivatives demonstrated excellent activity against the growth of suspended lymphomas and leukemias although it should be pointed out that generally they were not as active as the copper complexes of N(4)-substituted thiosemicarbazones. Nevertheless, selected bis(thiosemicarbazones) complexes were active against the growth of human lung MB9812, KB nasopharynx, epidermoid A431, glioma UM-86, colon SW480, ovary 1-A9, breast MCK-7, and osteosarcoma Saos-2. In human HL-60 promyelocytic leukemia cells the complexes preferentially inhibited DNA and purine syntheses over 60 min. The regulatory enzyme of the de novo purine pathway, IMP dehydrogenase, appeared to be a major target of the complexes. However, minor inhibition of the activities of DNA polymerase alpha, PRPP-amido transferase, ribonucleotide reductase, and nucleoside kinases occurred over the same time period. No doubt these effects of the complexes on nucleic acid metabolism were additive since the d[NTP] pool levels were reduced after 60 min as was DNA synthesis. The symmetrical and unsymmetrical bis(thiosemicarbazones) and their metal complexes did not cause as severe DNA fragmentation as the heterocyclic N(4)-substituted thiosemicarbazone metal complexes; furthermore, their metabolic effects in the tumor cell were more focused on a single synthetic pathway.
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PMID:The cytotoxicity of symmetrical and unsymmetrical bis(thiosemicarbazones) and their metal complexes in murine and human tumor cells. 1096 96

Mitochondria are believed to be integrators and coordinators of programmed cell death in addition to their respiratory function. Using mitochondrial DNA (mtDNA)-depleted osteosarcoma cells (rho0 cells) as a cell model, we investigated the apoptogenic signaling pathway of cadmium (Cd) under a condition of mitochondrial dysfunction. The apoptotic percentage was determined to be around 58.0% after a 24-h exposure to 25 microM Cd using flow cytometry staining with propidium iodine (PI). Pretreatment with Z-VAD-fmk, a broad-spectrum caspase inhibitor, failed to prevent apoptosis following Cd exposure. Moreover, Cd was unable to activate caspase 3 using DEVD-AFC as a substrate, indicating that Cd induced a caspase-independent apoptotic pathway in rho0 cells. JC-1 staining demonstrated that mitochondrial membrane depolarization was a prelude to apoptosis. On the other hand, the intracellular calcium concentration increased 12.5-fold after a 2-h exposure to Cd. More importantly, the apoptogenic activity of Cd was almost abolished by ruthenium red, a mitochondrial calcium uniporter blocker. This led us to conclude that mtDNA-depleted cells provide an alternative pathway for Cd to conduct caspase-independent apoptosis through a mitochondria-calcium mechanism.
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PMID:Cadmium toxicity toward caspase-independent apoptosis through the mitochondria-calcium pathway in mtDNA-depleted cells. 1596 96

Cd(II) complexes of tridentate nitrogen donor ligand, 2,6-bis(3,4,5-trimethylpyrazolyl)pyridine (btmpp), Cd(btmpp)X2 (X:Cl, ONO or N(CN)2) have been synthesized and characterized by elemental and spectral (FT-IR, (1)H NMR, (13)C NMR, UV-Vis) analyses, differential thermal analysis and single crystal X-ray diffraction studies. The molecular structure of reported complex 1, revealed distorted square-pyramidal geometry around Cadmium. Complexes 1-3 and corresponding ligand were tested for cytotoxic activity against the human carcinoma cell lines HEP3B (hepatocellular carcinoma), PC3 (prostate adenocarcinoma), MCF7 (breast adenocarcinoma) and Saos2 (osteosarcoma). The results show that, complexes are more cytotoxic than the free ligand and complex 2 is the most cytotoxic complex for PC3.
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PMID:Synthesis, characterization and anti-proliferative activity of Cd(II) complexes with NNN type pyrazole-based ligand and pseudohalide ligands as coligand. 2425 93

Itai-itai disease is thought to be the result of chronic cadmium (Cd) intoxication. Renal proximal tubules are a major target of Cd toxicity. The whole mechanism of the adverse effects of Cd remains unresolved, especially how renal damage is related to the development of bone lesions. Fibroblast growth factor 23 (FGF23) is a bone-derived phosphaturic factor that regulates vitamin D and inorganic phosphate metabolism in the kidney. To clarify the role of FGF23 on Cd toxicity, we investigated the mechanisms of Cd-induced FGF23 production in the bone. Cd injection into mice significantly increased plasma FGF23 concentrations, but did not change FGF23 mRNA expression in bone. GalNAc-T3 is involved in secreting intact FGF23. To determine potential roles of GalNAc-T3 in Cd-induced FGF23 production, we examined the effect of Cd on GalNAc-T3 mRNA expression in vivo and in vitro. GalNAc-T3 gene expression was significantly increased in the bones of Cd-injected mice. Cd also enhanced the expression of GalNAc-T3 in cultured osteosarcoma UMR106 cells and primary osteocytes. Cd activated aryl hydrocarbon receptors (AhR) and AhR were required for GalNAc-T3 gene expression induced by Cd. In addition, Cd-dependent FGF23 production was completely inhibited by an AhR antagonist. AhR siRNA markedly suppressed the stimulation of transcriptional activity by Cd. Furthermore, Cd induced AhR activation via phosphorylation of Ser-68 by p38 kinase in the nuclear export signal of AhR. Thus, Cd stimulated GalNAc-T3 gene transcription via enhanced AhR binding to the GalNAc-T3 promoter. These findings suggest that the Cd-induced increase in GalNAc-T3 suppresses proteolytic processing of FGF23 and increases serum FGF23 concentrations.
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PMID:Molecular mechanisms of cadmium-induced fibroblast growth factor 23 upregulation in osteoblast-like cells. 2461 34


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