UMLS:C0029463 - FACTA Search

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Query: UMLS:C0029463 (osteosarcoma)
16,637 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The fluoroaluminate (AlF(4)(-)) ion and sodium fluoride (NaF) have previously been shown to be bone cell mitogens. This study sought to determine whether the bone cell mitogenic action of AlF(4)(-) and/or NaF would involve the insulin-like growth factor (IGF) regulatory system. We evaluated the effect of mitogenic doses of AlF(4)(-) and NaF on the mRNA levels and the protein level (in conditioned media [CM]) of several components of the IGF system (i.e., IGF-2, IGF binding protein [IGFBP]-4, and IGFBP-5) in human TE85 osteosarcoma cells. Aluminum fluoride (AlF(3)) was included for comparison. NaF, AlF(3), and AlF(4)(-), each at 50-100 micromol/L, increased [3H]thymidine incorporation in TE85 cells. Mitogenic concentrations of AlF(3) and AlF(4)(-): (1) increased the mRNA (up to twofold after 24 h treatment) and protein (in CM) levels (up to 2.5-fold after 48 h treatment) of IGF-2; (2) increased the mRNA level (twofold) and the protein level in CM (up to threefold) of stimulatory IGFBP-5; and (3) either reduced slightly or had no effect on the mRNA and protein (in CM) levels of the inhibitory IGFBP-4. Conversely, mitogenic concentrations of NaF had no significant effects on the protein (in CM) or mRNA level of IGF-2, IGFBP-4, or IGFBP-5. The addition of an inhibitory concentration of IGFBP-4 completely abolished the bone cell mitogenic activity of AlF(3) and AlF(4)(-) but not that of NaF. The findings of this study provide strong evidence that the bone cell mitogenic activity of AlF(4)(-) and AlF(3), but not that of NaF, is mediated by the upregulation of the IGF regulatory system.
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PMID:Bone cell mitogenic action of fluoroaluminate and aluminum fluoride but not that of sodium fluoride involves upregulation of the insulin-like growth factor system. 1199 8

Fluoride is used in dentistry as a prophylactic agent to reduce caries rates due to the demineralization/remineralization effect and its influence on the metabolism of cariogenic bacteria. The purpose of this study was to evaluate the cytotoxic effects of sodium fluoride (NaF) on three different cell lines and the antibacterial potency on Streptococcus sobrinus. Cell lines were treated with various concentrations of NaF ranging from 0.039 mM to 10 mM for 24 h. For microbial assays, concentrations of NaF between 0.03 mM and 10 mM were added to liquid cultures of bacteria. Our results showed that immortalized human keratinocytes (HaCaT) and human osteogenic sarcoma cells (SAOS-2) were similarly affected by concentrations up to 2.5 mM. However, cell growth of HaCaT was slightly more inhibited at 2.5 mM of NaF than SAOS-2. At concentrations between 0.62 mM and 10 mM, 3T3 mouse fibroblast cells reacted more sensitively than HaCaT and SAOS-2 to NaF. The 3T3 cells did not survive in the presence of 10 mM NaF. NaF caused no significant effect on all tested cells at concentrations of < or = 0.31 mM. NaF at 0.039 mM and 0.06 mM did not affect growth of S. sobrinus. At concentrations of 0.125 mM and 0.5 mM, growth was slightly reduced. The proliferation of S. sobrinus significantly decreased at 1 mM and 2 mM NaF. S. sobrinus survived at 4 mM, revealing a delayed log phase with a decreased proliferation. No viable S. sobrinus cells were detected at concentrations of > or = 8 mM NaF. Data analysis revealed that overall treatment effects were highly significant (P<0.05, analysis of variance, Tukey's difference test). This study indicates that cytotoxic effects due to NaF significantly vary in dependence upon the applied cell line. The toxicity of NaF approached 50% (TC50) at concentrations of 6 mM for HaCaT, 2.3 mM for 3T3 cells, and 7.5 mM for SAOS-2. Additionally, NaF revealed antimicrobial effects only at concentrations that are significantly higher than oral fluoride concentrations.
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PMID:Chemical-biological interactions of NaF with three different cell lines and the caries pathogen Streptococcus sobrinus. 1216 20

The cytoskeleton, mainly composed of actin filaments, microtubules, and intermediate filaments, is involved in cell proliferation, the maintenance of cell shape, and the formation of cellular junctions. The organization of the intermediate filaments is regulated by phosphorylation and dephosphorylation. We examined cell population growth, apoptotic cell death, and the morphology of cytoskeletal components in myoblast cultures derived from patients with the 3243A-->G mutation in mitochondrial DNA (mtDNA) and from control subjects by means of assays detecting cellular nucleic acids, histone-associated DNA fragments and by immunolabeling of cytoskeletal components. Population growth was slower in the 3243A-->G myoblast cultures, with no difference in the amount of apoptotic cell death. The organization of vimentin filaments in myoblasts with 3243A-->G was disturbed by randomization of filament direction and length, whereas no disturbances were observed in the other cytoskeletal proteins. Vimentin filaments formed large bundles surrounding the nucleus in mtDNA-less (rho(0)) osteosarcoma cells and in osteosarcoma cells after incubation with sodium azide and nocodazole. We conclude that defects in oxidative phosphorylation lead to selective disruption of the vimentin network, which may have a role in the pathophysiology of mitochondrial diseases.
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PMID:Cytoskeletal structure of myoblasts with the mitochondrial DNA 3243A-->G mutation and of osteosarcoma cells with respiratory chain deficiency. 1221 Nov 4

Sodium fluoride is a white, crystalline, water-soluble powder used in municipal water fluoridation systems, in various dental products, and in a variety of industrial applications. Toxicology and carcinogenesis studies were conducted with F344/N rats and B6C3F1 mice of each sex by incorporating sodium fluoride into the drinking water in studies lasting 14 days, 6 months, and 2 years. In addition, genetic toxicology studies were performed with Salmonella typhimurium, with mouse L5178Y cells, and with Chinese hamster ovary cells. 14-Day Studies: Rats and mice received sodium fluoride in drinking water at concentrations as high as 800 ppm. (Concentrations are expressed as sodium fluoride; fluoride ion is 45% of the sodium salt by weight.) In the high-dose groups, 5/5 male and 5/5 female rats and 2/5 male mice died; one female rat was given 400 ppm in the drinking water also died before the end of the studies. No gross lesions were attributed to sodium fluoride administration. 6-Month Studies: Rats received concentrations of sodium fluoride in drinking water as high as 300 ppm, and mice as high as 600 ppm. No rats died during the studies; however, among the mice, 4/9 high-dose males, 9/11 high-dose females, and 1/8 males in the 300 ppm group died before the end of the studies. Weight gains were less than those of controls for rats receiving 300 ppm and mice receiving 200 to 600 ppm. The teeth of rats and mice receiving the higher doses of sodium fluoride were chalky white and chipped or showed unusual wear patterns. Mice and male rats given the higher concentrations had microscopic focal degeneration of the enamel organ. Rats receiving 100 or 300 ppm sodium fluoride had minimal hyperplasia of the gastric mucosa of the stomach, and one high-dose rat of each sex had an ulcer. Acute nephrosis and/or lesions in the liver and myocardium were observed in mice that died early, and minimal alterations in bone growth/remodeling were observed in the long bones of mice receiving sodium fluoride at concentrations of 50 to 600 ppm. The sodium fluoride concentrations selected for the 2-year studies in both rats and mice were 0, 25, 100, and 175 ppm in the drinking water. These concentrations were selected based on the decreased weight gain of rats at 300 ppm and of mice at 200 ppm and above, on the incidence of gastric lesions in rats at 300 ppm in the 6-month studies, and on the absence of significant toxic effects at sodium fluoride concentrations as high as 100 ppm in an earlier 2-year study. Body Weights and Survival in the 2-Year Studies: Mean body weights of dosed and control groups of rats and mice were similar throughout the 2-year studies. Survival of rats and mice was not affected by sodium fluoride administration. Survival rates after 2 years were: male rats-control, 42/80; 25 ppm, 25/51; 100 ppm, 23/50; 175 ppm, 42/80; female rats-59/80; 31/50; 34/50; 54/81; male mice-58/79; 39/50; 37/51; 65/80; female mice-53/80; 38/52; 34/50; 52/80. Neoplastic and Nonneoplastic Effects in the 2-Year Studies: The teeth of rats and mice has a dose-dependent whitish discoloration, and male rats had an increased incidence of tooth deformities and attrition leading on occasion to malocclusion. The teeth of male and, to a lesser degree, female rats had areas of microscopic dentine dysplasia and degeneration of ameloblasts. Dentine dysplasia occurred in both dosed and control groups of male and female mice; the incidence of this lesion was significantly greater in high-dose than in control male mice. Osteosclerosis of long bones was increased in female rats given drinking water containing 175 ppm sodium fluoride. No other significant nonneoplastic lesions in rats or mice appeared related to sodium fluoride administration. Osteosarcomas of bone were observed in 1/50 male rats in the 100 ppm group and in 3/80 male rats in the 175 ppm group. None were seen in the control or 25 ppm dose groups. One other 175 ppm male rat had an extraskeletal osteosarcoma arising in the subcutaneous tissue. Osteosarcomas occur in historical control male rats at an incian incidence of 0.5&percnt; (range 0-6&percnt;). The historical incidence is not directly comparable with the incidences observed in this study because examination of bone was more comprehensive in the sodium fluoride studies than in previous NTP studies of other chemicals, and the diet used in previous studies was not controlled for fluoride content. In the current study, although the pairwise comparison of the incidence in the 175 ppm group versus that in the controls was not statistically significant, osteosarcomas occurred with a statistically significant dose-response trend, leading to the conclusion that a weak association may exist between the occurrence of these neoplasms and the administration of sodium fluoride. No other neoplastic lesions in rats or mice were considered possibly related to chemical administration. Genetic Toxicology: Sodium fluoride was negative for gene mutation induction in Salmonella typhimurium strains TA100, TA1535, TA1537, and TA98 with and without S9. In two laboratories, sodium fluoride was tested for induction of trifluorothymidine resistance in mouse L5178Y lymphoma cells; results were positive both with and without S9. Sodium fluoride was tested for cytogenetic effects in Chinese hamster ovary (CHO) cells in two laboratories. In the first laboratory, the sister chromatid exchange (SCE) test was negative with and without S9, and the chromosomal aberration (Abs) test was positive in the absence of S9; in the second laboratory, the SCE test was positive with and without S9, but no induction of Abs was observed. The laboratory that reported a negative result for Abs tested at doses below that shown to be positive at the other laboratory. Similarly, the positive SCE result was obtained at a higher dose and longer harvest time than used by the laboratory reporting the negative SCE response. Conclusions: Under the conditions of these 2-year dosed water studies, there was equivocal evidence of carcinogenic activity of sodium fluoride in male F344/N rats, based on the occurrence of a small number of osteosarcomas in dosed animals. "Equivocal evidence" is a category for uncertain findings defined as studies that are interpreted as showing a marginal increase of neoplasms that may be related to chemical administration. There was no evidence of carcinogenic activity in female F344/N rats receiving sodium fluoride at concentrations of 25, 100, or 175 ppm (11, 45, or 79 ppm fluoride) in drinking water for 2 years. There was no evidence of carcinogenic activity of sodium fluoride in male or female mice receiving sodium fluoride at concentrations of 25, 100, or 175 ppm in drinking water for 2 years. Dosed rats had lesions typical of fluorosis of the teeth and female rats receiving drinking water containing 175 ppm sodium fluoride had increased osteosclerosis of long bones.
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PMID:NTP Toxicology and Carcinogenesis Studies of Sodium Fluoride (CAS No. 7681-49-4)in F344/N Rats and B6C3F1 Mice (Drinking Water Studies). 1263 66

We retrospectively studied 790 patients with osteosarcoma treated by neoadjuvant chemotherapy at a single institution between 1983 and 2000 according to different protocols, all including a high dose of methotrexate (HDMTX), to determine the incidence of delayed clearance of HDMTX, and identify patients at high risk for this kind of toxicity. Chemotherapy was administered according to 7 different protocols, successively activated, in which HDMTX was associated with other drugs (cisplatin, adriamycin, ifosfamide) in different combinations. The doses of MTX ranged between 7.5 to 12 g/m(2) and patients received from 1 to 10 cycles with MTX for a total number of 4219 cycles. The incidence of delayed clearance of MTX (plasma values of the drug at 24 h >5 microM/l) was 8.6% per patient and 1.6% per cycle of treatment. In 51 cases the delayed clearance of MTX was "mild" (plasma values of MTX at 24 h between 5 and 19 microM/l) and in 18 cases "severe" (plasma values of MTX at the 24 h >20 microM/l). The delayed clearance of MTX was significantly correlated with the age of patients (16% for patients over 20 vs. 6% for younger patients: p=0.0001) and was significantly more frequent during the first cycles of chemotherapy (7% during the first 3 cycles of treatment vs. 2% during subsequent cycles). There was also a significant correlation (p=0.0001) between the plasma values of MTX at the end of the infusion and at 18 h and the delayed clearance of the drug. In addition to support treatment by increased hydration and sodium bicarbonate, all patients who experienced the delayed clearance of MTX were treated solely with a high dose of leucovorin (HDLV), which was started at the first 18 h. Significant neutropenia and/or thrombocythopenia, increase of serum creatinine, mucositis of varying degrees and vomiting occurred in most cases of severe delayed clearance of MTX, but all patients completely recovered. We conclude that in spite of adequate hydration and urine alkalinization and the use of pharmacokinetically guided leucoverin rescue, delayed clearance of MTX may still occur and that its incidence is higher in older patients and during the first cycles of treatment. However, if "rescue" treatment is started early, the consequent morbility is tolerable and these patients can be rescued using only HDLV, without the need for extracorporeal removal.
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PMID:Delayed methotrexate clearance in osteosarcoma patients treated with multiagent regimens of neoadjuvant chemotherapy. 1279 34

To gain insight into the early response of osteoblastic cells to a physiological level of mechanical strain in vitro, the secretion of osteopontin by MG-63 osteosarcoma cells was assessed by [35S] incorporation and autoradiography. First, osteopontin secreted from MG-63 cells was immunolocalized at 60-64 kDa (Mr) by polyacrylamide gel electrophoresis. A uniform physiological level of strain was generated by a vacuum added to the convex side of a half-ball shaped silicon rubber membrane on which the cells were cultured on the concave side. After labelling proteins with [35S]-methionine/cysteine (147 microCi/ml), the membranes were exposed to a strain of 0.5 per cent (5000 microepsilon), 3 cycles/minute (sine wave) with 10 minutes on and off. At 1, 2 and 4 hours after strain, the supernatants were collected and analysed by 10 per cent sodium dodecyl sulphate-polyacrylamide gel electrophoresis and autoradiography. The results showed that osteopontin was secreted by the strained cells at significantly higher amounts than the non-strained cells at all three time points (P < 0.05), with the first hour being the most prominent. A physiological level of mechanical strain increased the secretion of osteopontin from MG-63 cells in an early phase. This finding implies an accelerated process of bone remodelling, which suggests that the application of light and intermittent forces would result in the cellular reaction identified in relation to orthodontic tooth movement. The results indirectly indicate that the level of force presently used might be too high.
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PMID:Secretion of osteopontin from MG-63 cells under a physiological level of mechanical strain in vitro--a [35S] incorporation approach. 1513 36

It was found that a collapse of the mitochondrial calcium buffering caused by the protonophoric uncoupler CCCP, antimycin A plus oligomycin, or the inhibitor of the mitochondrial Ca2+/Na+ exchanger led to a strong inhibition of thapsigargin-induced capacitative Ca2+ entry (CCE) into Jurkat cells suspended in a medium at pH 7.2. The effect of these inhibitors was markedly less significant at higher extracellular pH. Moreover, dysfunction of the mitochondrial calcium handling greatly decreased CCE sensitivity to extracellular Ca2+ when the pH of extracellular solution was 7.2 (apparent Kd toward extracellular Ca2+ rose from 2.3 +/- 0.6 mm in control cells to 11.0 +/- 1.7 mM in CCCP-treated cells) as compared with pH 7.8 (apparent Kd toward extracellular Ca2+ increased from 1.3 +/- 0.4 mM in control cells to 2.4 +/- 0.4 mM in uncoupler-treated cells). Changes in intracellular pH triggered by methylamine did not influence Ca2+ influx. This suggests that, in Jurkat cells, store-operated calcium channels sense extracellular pH change as a parameter that modifies their sensitivity to intracellular Ca2+. In contrast, in human osteosarcoma cells, changes in extracellular pH as well as mitochondrial uncoupling did not exert any inhibitory effects on CCE.
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PMID:Extracellular pH modifies mitochondrial control of capacitative calcium entry in Jurkat cells. 1556 68

Selenium (Se), a micronutrient and an environmental, a chemical and an industrial agent in many products, can have genotoxic effects as well as antimutagenic and/or anticarcinogenic properties, depending on its concentration and oxidation state. We investigated the cytotoxic response of human osteosarcoma (U2OS) cells to low doses of sodium selenite and assayed their resistivity to cisplatin treatment and their capacity to reactivate cisplatin-treated reporter system, whose repair occurs through the transcription coupled repair (TCR) pathway, using the Host Cell Reactivation (HCR) Assay. In addition, we examined the ability of Se-treated human primary lymphocytes for normal double-strand breaks rejoining (DSBR) using the Challenge assay. Although, U2OS cells did not demonstrate cytotoxicity to all Se doses used, as measured by the cell proliferation MTT assay, their resistivity to cisplatin was significantly reduced. Moreover, Se-treated cells exhibited a significant reduction in their capacity for TCR as compared with untreated control cells. Primary human blood lymphocytes demonstrated cytotoxicity to Se treatment at only a concentration of 10 microM. There were no significant increases in chromosome-type deletions or chromatid breaks or in mitotic indices in cells treated with Se alone or Se plus ionizing irradiation. However, dicentric chromosomes significantly increased upon treatment with 1 microM Se plus irradiation as compared with Se-untreated irradiated control. These findings demonstrate direct evidence on the inhibitory effect of inorganic Se on cellular DNA repair capacity.
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PMID:Abnormal DNA repair in selenium-treated human cells. 1557 38

Manganese superoxide dismutase (MnSOD) is a mitochondrial enzyme that converts cytotoxic superoxide radicals into hydrogen peroxide. MnSOD activity is lower in tumor cells, and MnSOD overexpression reportedly ameliorates malignant phenotypes. We established stable MnSOD overexpressing cell lines from a human osteosarcoma cell line, SaOS2, and then investigated the effects of MnSOD overexpression on plating efficiency (PE) and the involvement of reactive oxygen species, including nitric oxide (NO) in those effects. The PE of SaOS2FM(L), a moderate MnSOD overexpression cell line, increased, while that of SaOS2FM(H), a high MnSOD overexpression cell line, decreased. Although we assessed PE using a colony-formation assay, time-lapse microscopic observation revealed that cells attached to the flasks had undergone neither apoptosis nor necrosis. Moreover, MnSOD overexpression did not affect cell doubling time. Therefore, MnSOD overexpression might correlate directly with cellular adhesion's effect on PE changes. When L-buthionine-[S,R]-sulfoximine (BSO) was administered to increase the intracellular concentration of hydrogen peroxide, the PEs of both cell lines decreased, and when hydrogen peroxide was eliminated by the administration of sodium pyruvate, only the PE of SaOS2FM(H) increased. The combination of BSO and NO (NOR4 or isosorbide 5-mononitrate) administration synergistically decreased PE in both cell lines. These findings suggest that changes in cellular adhesion properties correlate with the balance between increased hydrogen peroxide levels and decreased superoxide radical levels. This is the first report to indicate that PE and cellular adhesion properties change bidirectionally according to the levels of MnSOD overexpression: first increasing then decreasing as MnSOD activity increases. Our results indicate that PE changes might be decided by the balance between two cytotoxic compounds (decreased superoxide radical levels and increased hydrogen peroxide levels), and that NO loading and increased hydrogen peroxide synergistically reduce PE and cellular adhesion.
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PMID:Manganese superoxide dismutase overexpression changes plating efficiency bidirectionally according to change in redox for SaOS2 human osteosarcoma cell line. 1575 78

Fluorine compounds are widely used for the prevention of caries, and recently sodium fluorosilicate has been used in water fluorination. The cytotoxic effects of sodium fluorosilicate in several osteosarcoma and oral cancer cells were evaluated in this study by measurement of inhibition of cell proliferation. Human osteogenic sarcoma (HOS) cells were the most sensitive to sodium fluorosilicate treatment. Induction of apoptosis, such as nucleosomal DNA fragmentation and the appearance of apoptotic bodies, were observed in HOS cells by agarose gel electrophoresis and by flow cytometric analysis, respectively. The molecular mechanism of apoptosis induction in HOS was investigated by Western blot analysis. The level of Bcl-2 was decreased and consequent release of cytochrome c was increased. Caspase-3 was activated and the cleavage of poly (ADP-ribosyl) polymerase was increased. In conclusion, sodium fluorosilicate induces apoptosis in HOS cells through decrease in Bcl-2, the release of cytochrome c to the cytosol and activation of caspase-3.
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PMID:Induction of apoptosis by sodium fluorosilicate treatment in human osteogenic sarcoma (HOS) cells. 1581 63

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