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)

Heterotopic osteogenesis induced by lyophilized powder of a murine osteosarcoma was greatly enhanced by treating the powder with the following acids: 0.01 N HCl (pH 2.0), 0.1 N HCl (pH 1.7), 1 N HCl (pH 1.2), 0.5 M acetic acid (pH 2.8), 0.5 M lactic acid (pH 2.0), and 0.5 M citric acid (pH 1.8). The acid-treated preparations were neutralized before implantation into back muscles of ddY mice. Acid treatment resulted in almost a fivefold increase in the amount of new bone formation, as measured by uptake of strontium-85 into the implants. In addition bone-inducing activity was increased by longer exposure to 0.01 N HCl up to 24 h. These findings suggest that the bone-inducing activity of the osteosarcoma is enhanced by various acids below pH 2.8. A possible role for hydrogen ion concentration in the regulation of osteogenesis is discussed.
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PMID:Acid solutions enhance bone-inducing activity of a murine osteosarcoma. 345 79

A bone-inducing substance (osteogenic factor) from a murine osteosarcoma was found to be soluble in 1% sodium lauryl sulfate (SDS), 1% deoxycholate, 1% Triton X-100, and 1% Nonidet P-40. A precipitate formed on removal of the detergents by dialysis against phosphate buffer, and this precipitate induced ectopic bone formation when implanted into allogeneic mice. The insoluble residue left after extraction with SDS or deoxycholate did not evoke new bone formation, indicating that the substance was solubilized completely. The bone-inducing substance was also partially solubilized with weak acids (pH, 2.6-3.0) but not with acidic solutions of lower or higher pH. These findings indicate that the solubility of the substance depends on the hydrogen ion concentration of the solution. The substance was not solubilized with EDTA or 6 M urea.
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PMID:Solubility of a bone-inducing substance from a murine osteosarcoma. 658 84

The ras oncogene family has been implicated in tumor resistance to ionizing radiotherapy. Using the gene-transfer model, we show here that ras expression may also affect cell responses to chemical inducers of oxidative stress. Studies involving human osteosarcoma subclones, which vary in their levels of EJras expression, revealed a tight correlation between the amounts of ras-encoded mRNA and p21 produced, and the degree of resistance to doxorubicin or hydrogen peroxide. Differences in response could not be explained by increased activity of anti-oxidant enzymes such as superoxide dismutase, glutathione reductase, glutathione S-transferase or glutathione peroxidase. Moreover, there were no significant differences in glutathione levels. Although the resistant cells had elevated levels of gamma-glutamyl-transferase mRNA indicative of an increased rate of glutathione turnover, this elevation was not specific for ras-transfected cell lines. Lovastatin, an inhibitor of protein isoprenylation critical for p21ras membrane association and function, restored the sensitivity of ras-transformed cells to doxorubicin and hydrogen peroxide. The data indicate that pharmacological agents affecting ras expression may enhance responses of some human tumors to free-radical-mediated chemotherapies.
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PMID:Tumor resistance to oxidative stress: association with ras oncogene expression and reversal by lovastatin, an inhibitor of p21ras isoprenylation. 782 24

Doxorubicin (DOX) is a common anticancer drug. The mechanisms of DOX induced apoptosis and the involvement of reactive oxygen species (ROS) in apoptotic signaling were investigated in p53-null human osteosarcoma Saos-2 cells. Accumulation of pre-G1 phase cells and induction of DNA laddering, which are the hallmarks of apoptosis, were detected in cells at 48 h upon DOX treatment. Furthermore, DOX increased the intracellular hydrogen peroxide and superoxide levels, followed by mitochondrial membrane depolarization, cytochrome c release, caspase-3 activation, prior to DNA laddering in Saos-2 cells. In addition, DOX treatment also upregulated Bax and downregulated Bcl-2 levels in the cells. The role of ROS in DOX induced cell death was confirmed by the suppression effect of catalase on DOX induced ROS formation, mitochondrial cytochrome c release, procaspase-3 cleavage, and apoptosis in Saos-2 cells. The catalase treatment however only suppressed DOX induced Bax upregulation but had no effect on Bcl-2 downregulation. Results from the present study suggested that ROS might act as the signal molecules for DOX induced cell death and the process is still functional even in the absence of p53.
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PMID:Reactive oxygen species mediate doxorubicin induced p53-independent apoptosis. 1289 28

In our previous study, we examined radiation-induced ROS formation, oxidative DNA damage, early apoptotic changes, and mitochondrial membrane dysfunction in the human osteosarcoma cell line HS-Os-1, which was established from an osteoblastic tumor that arose in the left humerus of an 11-year-old girl and was already morphologically characterized in vitro and in vivo. We found that ROS formation and oxidative DNA damage were scarcely seen after irradiation of up to 30 Gy in these cells; that mitochondrial membrane potential was preserved; and that apoptotic changes were not demonstrated despite the relatively high-dose irradiation of 30 Gy. Based on these results, the radioresistance of the human osteosarcoma cell line HS-Os-1, was considered to arise, at least in part, from the low level of ROS formation following irradiation, which in turn may have resulted from the strong scavenging ability of the cells for free radicals, including hydroxyl radicals. Therefore, in this study, we examined the effect of exogenous hydrogen peroxide, which causes a potent oxidative stress and has been demonstrated to be a potent apoptosis-inducer in many kinds of cells. We found that addition of 1 or 10 mM hydrogen peroxide induced ROS formation, oxidative DNA damage, dysfunction of the mitochondrial membrane potential, and early apoptotic changes in the human osteosarcoma cell line HS-Os-1. We therefore concluded that intracellular ROS formation is involved in the hydrogen peroxide-induced apoptosis of HS-Os-1 cells.
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PMID:Mechanism of hydrogen peroxide-induced apoptosis of the human osteosarcoma cell line HS-Os-1. 1296 19

Under normal circumstances, adhered cells die of anoikis when detached from their extracellular matrix (ECM). Resistance to anoikis has been implicated in the progression of many human malignancies by affording an increased survival time in the absence of matrix attachment, facilitating the migration and eventual colonisation of distant sites. In this study, an anoikis-resistant variant of the human osteosarcoma cell line, SAOS-2 (SAOSar), was generated by sequential cycles of culturing under adhered and suspended conditions. It was also shown that although parental SAOS (SAOSp) cells are a heterogeneous population with varying levels of sensitivity to anoikis, the establishment of anoikis-resistant clones was not necessarily the result of mere selection of a previously resistant subpopulation. Anoikis-resistant cells were also derived from anoikis-sensitive SAOS clones by exposure to anoikis-inducing culture conditions. This suggests that lack of the normal signalling generated by attachment to the ECM could represent a driving force towards anoikis resistance. Resistance to anoikis could not be attributed to a general defect in the apoptotic pathway since apoptosis in both sensitive and resistant populations was induced after treatment with staurosporine, cycloheximide and hydrogen peroxide. This suggests that the apoptotic machinery is intact in both anoikis-sensitive and -resistant SAOS cells and that the death signal in anoikis-sensitive cells is generated by the lack of attachment, most probably by unligated integrins. Anoikis-resistant cells have circumvented this death signal and remain viable despite suspended conditions.
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PMID:Acquisition of anoikis resistance in human osteosarcoma cells. 1455 33

In our previous study, we demonstrated that the radioresistance of the human osteosarcoma cell line HS-Os-1, was considered to arise, at least in part, from the low level of ROS formation following irradiation, which in turn may have resulted from the strong scavenging ability of the cells for free radicals, including hydroxyl radicals. Following the study, we found that addition of 1 or 10 mM hydrogen peroxide induced ROS formation, oxidative DNA damage, dysfunction of the mitochondrial membrane potential, and early apoptotic changes in the human osteosarcoma cell line HS-Os-1. We therefore speculated that combined use of irradiation and hydrogen peroxide might exert an additive effect for apoptotic-resistant tumors such as the human osteosarcoma cell line HS-Os-1, in terms of preservation of the radiation-induced hydroxyl radical production supported by the intracellular ROS formation that is induced by exogenous hydrogen peroxide addition. Therefore, in this study, we examined the effect of various doses of irradiation on the existence of 0.1 mM hydrogen peroxide in the culture medium. We found that irradiation with 10 or 20 Gy, under the condition of the presence of 0.1 mM hydrogen peroxide, induced ROS formation, oxidative DNA damage, dysfunction of the mitochondrial membrane potential, and early apoptotic changes in the human osteosarcoma cell line HS-Os-1, though ROS formation and oxidative DNA damage were scarcely seen in response to irradiation of up to 30 Gy, as was shown in our previous study. We therefore concluded that the combined modality of irradiation and such a low concentration of hydrogen peroxide (0.1 mM) is potentially applicable in clinical radiotherapy for many kinds of apoptotic-resistant neoplasms in terms of achieving both local control and improving survival benefit of patients.
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PMID:Apoptotic-resistance of the human osteosarcoma cell line HS-Os-1 to irradiation is converted to apoptotic-susceptibility by hydrogen peroxide: a potent role of hydrogen peroxide as a new radiosensitizer. 1461 55

In our previous study, we examined the effect of exogenous hydrogen peroxide, which causes a potent oxidative stress and has been demonstrated to be a potent apoptosis-inducer in many kinds of cells. We found that the addition of 1 or 10 mM hydrogen peroxide induced reactive oxygen species (ROS) formation, oxidative DNA damage, dysfunction of the mitochondrial membrane potential, and early apoptotic changes in the human osteosarcoma cell line HS-Os-1. We therefore concluded that intracellular ROS formation was involved in the hydrogen peroxide-induced apoptosis of HS-Os-1 cells. In contrast to the osteosarcoma cell line HS-Os-1, human peripheral T cells are considered to be easily susceptible to oxidative stress, because these cells lack peroxidase activity. Therefore, in this study, we investigated the site of ROS formation by utilizing MitoCapture, H2DCFDA (succinimidyl ester of dichloro-dihydrofluorescein diacetate), DAPI (4',6-diamidino-2-phenylindole), and LysoSensor. Our results showed that ROS formation was apparently diffusely distributed in T cells oxidatively stressed with 0.1 mM hydrogen peroxide. Moreover, lysosomal swelling and deformity, possibly revealing lysosomal membrane destabilization, were observed in these cells. Based on the above results, there exists an apoptotic cascade involving early lysosomal membrane destabilization in the hydrogen peroxide-induced apoptosis of human peripheral T cells. Therefore, the possible involvement of lysosomal protease leakage caused by hydroxyl radical formation in lysosomes (possibly resulting in mitochondrial membrane dysfunction) is considered to play an important role in hydrogen peroxide-induced T cell apoptosis.
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PMID:Reactive oxygen species-producing site in hydrogen peroxide-induced apoptosis of human peripheral T cells: involvement of lysosomal membrane destabilization. 1476 67

In our previous studies, we showed that the apoptotic resistance of the human osteosarcoma cell line HS-Os-1 against irradiation was easily converted to a state of apoptotic-susceptibility by the addition of a relatively low concentration of hydrogen peroxide to the culture medium just prior to irradiation. When we consider the combined use of radiotherapy and hydrogen peroxide in a clinical setting for patients with radioresistant neoplasms, we need to be careful of the possible augmentation of the radiation effect to normal tissues of patients who undergo radiation therapy for their tumor in the presence of a low concentration of hydrogen peroxide in their topical tumor tissue. Therefore, we examined the combined effect of irradiation and hydrogen peroxide compared to that of irradiation alone for human peripheral T cells which were considered to be representative of normal tissue susceptible to apoptosis induced by irradiation. In this study, we compared the morphological changes in human peripheral T cells between both groups by utilizing MitoCapture, H2DCFDA (succinimidyl ester of dichloro-dihydrofluorescein diacetate), DAPI (4',6-diamidino-2-phenylindole), and LysoSensor. Our results showed that ROS formation was apparently augmented in the mitochondria and/or lysosomes instead of in the nuclei of irradiated T cells in the presence of a low concentration of hydrogen peroxide compared to those treated with irradiation alone. Moreover, dysfunction of mitochondrial membrane potential was also more evidently shown in human peripheral T cells irradiated under existence of a low concentration of hydrogen peroxide compared to T cells treated with 5 Gy irradiation alone. Based on these results, we concluded the possible existence of an augmentation effect of irradiation by the existence of a low concentration of hydrogen peroxide for human peripheral T cells. Therefore, we should be alert for the combined effects of radiation therapy and hydrogen peroxide on normal tissues in possible clinical situations when this combination is used for treatment of patients having radioresistant neoplasms such as osteosarcoma, malignant melanoma, and glioblastoma multiforme.
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PMID:Reactive oxygen species-producing site in radiation and hydrogen peroxide-induced apoptosis of human peripheral T cells: Involvement of lysosomal membrane destabilization. 1506 65

In a series of experimental studies, it was shown that repetitive mild heat stress has antiaging hormetic effects on growth and various other cellular and biochemical characteristics of human skin fibroblasts undergoing aging in vitro. We have reported the hormetic effects of repeated challenge at the levels of maintenance of stress protein profile; reduction in the accumulation of oxidatively and glycoxidatively damaged proteins; stimulation of the proteasomal activities for the degradation of abnormal proteins; improved cellular resistance to ethanol, hydrogen peroxide, and ultraviolet-B rays; and enhanced levels of various antioxidant enzymes. Detailed analysis of the signal transduction pathways to determine alterations in the phosphorylation and dephosphorylation states of ERK, JNK, and p38 MAP kinases as a measure of cellular responsiveness to mild and severe heat stress is in progress. Furthermore, comparative studies using nonaging immortal cell lines, such as SV40-transformed human fibroblasts, spontaneous osteosarcoma cells, and telomerase-immortalized human bone marrow cells are also in progress for establishing differences in normal and cancerous cells for their responsiveness to mild and severe stresses.
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PMID:Mechanisms of hormesis through mild heat stress on human cells. 1524 85


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