Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The trefoil factors (TFFs) are pleiotropic factors involved in organization and homeostasis of the gastrointestinal tract, estrogen responsiveness, inflammatory disorders, and carcinogenesis. In an earlier study using cDNA array technologies to identify new genes expressed in irradiated cell survivors, we isolated a cDNA clone corresponding to the reported human TFF1 gene (E. K. Balcer-Kubiczek et al., Int. J. Radiat. Biol., 75: 529-541, 1999). To determine whether expression of other TFFs is altered by ionizing radiation, we quantified changes in expression of TFF3 as well as TFF1 in RNA samples obtained from irradiated and control human tumor breast, colon, and gastric tumor cells and examined expression kinetics up to 2 weeks after irradiation. X-ray-induced TFF1 and TFF3 expression profiles were compared with those induced by hydrogen peroxide (H2O2) or 17beta-estradiol (ES). The results revealed that TFF1 and TFF3 mRNA are coinduced by X-irradiation in a subset of the lines, but substantial heterogeneity in their responses was observed in cells derived from a single cell type. TFF1 and TFF3 transcriptional response to X-irradiation differed from that to H2O2 or ES in the timing of their induction as well as tissue-type dependence, i.e., their induction pattern after X-irradiation was late and sustained, whereas their induction by H2O2 or ES was early and transient. TFF1 mRNA, protein production in the cytoplasm, and secretion in the culture supernatant were coordinately regulated after X-irradiation. There was no requirement for TP53 in this induction. These results demonstrate the existence of a novel class of radiation-responsive genes that might be involved in bystander effects.
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PMID:Coordinate late expression of trefoil peptide genes (pS2/TFF1 and ITF/TFF3) in human breast, colon, and gastric tumor cells exposed to X-rays. 1247 53

Manganese superoxide dismutase (MnSOD) catalyzes the dismutation of superoxide anions (O(2)(-)) into hydrogen peroxide (H(2)O(2)). We altered the intracellular status of reactive oxygen species by introducing human MnSOD cDNA into the human ovarian cancer cell line SK-OV-3. The overexpression of MnSOD inhibited cell growth and induced a concomitant increase in the level of H(2)O(2) in SK-OV-3 cells. The cells overexpressing MnSOD were more resistant to irradiation than parental cells. MnSOD overexpression shortened the G(2)-M duration in irradiated cells. Either inhibition of p38 mitogen-activated protein kinase (p38MAPK) or scavenging free radicals blocked the induction of radioresistance by MnSOD and also abolished the shortening of the G(2)-M duration with concomitant inhibition of p38MAPK phosphorylation. Irradiation increased the generation of H(2)O(2) even more in these transfectants. These results suggest that the accumulated H(2)O(2) potentiated the activation of p38MAPK after irradiation in cells overexpressing MnSOD, which led to the protection of cells from irradiation-mediated cell death through the G(2)-M checkpoint. SK-OV-3 cells had no constitutive expression of p53, and the overexpression of MnSOD and/or irradiation did not induce p53 or p21(WAF1), which causes cell cycle arrest. Thus, our results suggest that MnSOD alters the cell cycle progression of irradiated cells independently of p53 and p21(WAF1).
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PMID:Role of reactive oxygen species in cells overexpressing manganese superoxide dismutase: mechanism for induction of radioresistance. 1249 60

The effects of ladasten (0.1-10 microM) on the proliferative activity, apoptosis, and expression of the apoptosis protein regulators (bcl-2 and p53) was studied in 72-h cultures of T-lymphocytes of human peripheral blood activated by anti-CD3MCA. In the concentration interval from 0.01 to 1 microM, ladasten produced a comitogenic effect. The drug changed neither the activity of caspase 3 and the proportion of cells in the late apoptosis stage (Hoechst 33342 stain test), nor the bcl-2 expression, but increased the p53 expression in the activated cells. Irrespective of the concentration, ladasten protected activated lymphocytes in the cell culture from apoptosis induced by the topoisomerase I inhibitor camptothecin or by hydrogen peroxide (provided that the drug was added to the culture simultaneously with the apoptosis inductor). At the same time, lymphocytes cultivated in the presence of ladasten acquired resistance with respect to apoptosis induced by hydrogen peroxide, but not by camptothecin. It is suggested that the immunomodulant activity of ladasten are related to the comitogenic effect and the increase in resistance of the activated T-lymphocytes with respect to non-receptor-induced apoptosis.
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PMID:[Effect of ladasten on proliferative activity and apoptosis in peripheral blood T-lymphocytes ]. 1259 34

Stereotactic radiosurgery is an encouraging approach to deliver higher doses of radiation boost for malignant gliomas safely and precisely. The purpose of this study was to investigate the radiation response and histological changes of malignant astrocytic tumors after stereotactic linac radiosurgery (SLRS). We studied an autopsy case of recurrent glioblastoma multiforme (GBM) and two surgical cases with gross total removal of recurrent GBM and anaplastic astrocytoma transformed from fibrillary astrocytoma treated with SLRS. Destructive changes, such as the disappearance of viable cells, coagulation necrosis, and fibrinoid degeneration of vascular walls, were observed in the center of the target of SLRS, which showed histologically similar radiobiological reactions to well-known delayed central nervous system radiation necrosis caused by conventional radiotherapy. The region showing such radiation necrosis was within the area irradiated with approximately 15-20Gy or more by SLRS; however, dense viable tumor cells remained in the periphery that was irradiated with less than 15Gy. In a comparative immunohistochemical study of the tumors before and after SLRS, neither MIB-1 and p53 labeling indices nor immunoreactivity for GFAP represented any persistent tendencies. There were very few TUNEL-positive cells in either tumor before and after SLRS. These results showed that radiosurgery for malignant gliomas leads to earlier radiation necrosis than conventional radiation and that it is useful in eradicating tumor cells in the center of the target. However, some viable tumor cells may remain in the periphery irradiated with an insufficient dose for cell death and may be partly transformed in character by DNA damage due to radiation. Proton magnetic resonance spectroscopy (MRS) was suggested to characterize the radiation response in radiosurgery tumor targets for correlation with histological findings.
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PMID:Radiological response and histological changes in malignant astrocytic tumors after stereotactic radiosurgery. 1262 38

This study describes a novel in vitro method in genetic toxicology that is based on detection of chemical-induced DNA damage connected with altered migration of TP53 in primary human colonocytes. Techniques were developed to isolate high numbers of human epithelial colon cells from surgical tissues. High quantities of viable cells were obtained per donor. The primary cells were treated with the endogenous risk factors trans-2-hexenal, and hydrogen peroxide. Global DNA damage and repair were measured by single-cell gel electrophoresis (Comet assay). We compared responses of primary colon cells to HT29clone19A, a differentiated human colon tumour cell line, for which the karyotype was analysed with 24-colour FISH. Both compounds were genotoxic in both cell types and most of the induced DNA damage was repaired after 30 min. Specific migration of TP53 was determined by fluorescence in situ hybridization (Comet FISH). Using primary colon cells, we quantified the migration of TP53 signals into the comet tails. In these cells TP53 was more sensitive than global DNA for genotoxicity induced by trans-2-hexenal and H(2)O(2). HT29clone19A cells cannot be used for Comet FISH because of their aberrant karyotype. The approach described allows us to obtain more knowledge of putative risk factors in colon carcinogenesis.
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PMID:Putative colon cancer risk factors damage global DNA and TP53 in primary human colon cells isolated from surgical samples. 1265 18

Semicarbazide, a hydrazine derivative, is carcinogenic to mice but shows no or little mutagenicity in the Salmonella-microsome test. To clarify whether or not the genotoxic mechanism contributes to the non-mutagenic carcinogenicity of semicarbazide, we investigated DNA damage induced by semicarbazide using 32P-5'-end-labeled DNA fragments obtained from the c-Ha-ras-1 protooncogene and the p53 tumor suppressor gene. Semicarbazide caused DNA damage frequently at the thymine and cytosine residues in the presence of Cu(II). Catalase and bathocuproine partially inhibited DNA damage, suggesting that hydrogen peroxide plus Cu(I) participates in DNA damage. When a high concentration of semicarbazide was used in the presence of catalase, DNA damage was induced, especially at G in 5'-AG and slightly at 5'-G in GG and GGG sequences. An electron paramagnetic resonance (EPR) spectroscopic study has confirmed that the reaction of semicarbazide with Cu(II) produces carbamoyl radicals (z.rad;CONH(2)), possibly generated via the nitrogen-centered radicals of semicarbazide. Azodicarbonamide also produced carbamoyl radicals and induced DNA damage frequently at 5'-G in GG and GGG sequences, suggesting that carbamoyl radicals participate in this sequence-specific DNA damage by semicarbazide. On the basis of our previous reports, we consider that the sequence-specific DNA damage at G in 5'-AG in the present study is due to the nitrogen-centered radicals. This study has shown that semicarbazide induces DNA damage in the presence of Cu(II) through the formation of hydrogen peroxide and Cu(I). In addition, semicarbazide-derived free radicals participate in DNA damage. DNA damage induced by these reactive species may be relevant to the carcinogenicity of semicarbazide.
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PMID:Carcinogenic semicarbazide induces sequence-specific DNA damage through the generation of reactive oxygen species and the derived organic radicals. 1269 49

Oxidative stress and resulting lipid peroxidation are important risk factors for dietary-associated colon cancer. To get a better understanding of the underlying molecular mechanisms, we need to characterise the risk potential of the key compounds, which cause DNA damage in cancer-relevant genes and especially in human target cells. Here, we investigated the genotoxic effects of 4-hydroxy-2-nonenal (HNE) and hydrogen peroxide (H(2)O(2)) in human colon cells (LT97). LT97 is a recently established cell line from a differentiated microadenoma and represents cells from frequent preneoplastic lesions of the colon. The genomic characterisation of LT97 was performed with 24-colour FISH. Genotoxicity was determined with single cell microgelelectrophoresis (Comet assay). Comet FISH was used to study the sensitivity of TP53-a crucial target gene for the transition of adenoma to carcinoma-towards HNE. Expression of glutathione S-transferases (GST), which deactivates HNE, was determined as GST activity and GSTP1 protein levels. LT97 cells were compared to primary human colon cells and to a differentiated clone of HT29. Karyotyping revealed that the LT97 cell line had a stable karyotype with only two clones, each containing a translocation t(7;17) and one aberrant chromosome 1. The Comet assay experiments showed that both HNE and H(2)O(2) were clearly genotoxic in the different human colon cells. HNE was more genotoxic in LT97 than in HT29clone19A and primary human colon cells. After HNE incubation, TP53 migrated more efficiently into the comet tail than the global DNA, which suggests a higher susceptibility of the TP53 gene to HNE. GST expression was significantly lower in LT97 than in HT29clone19A cells, which could explain the higher genotoxicity of HNE in the colon adenoma cells. In conclusion, the LT97 is a relevant model for studying genotoxicity of colon cancer risk factors since colon adenoma are common preneoplastic lesions occurring in advanced age.
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PMID:Human adenoma cells are highly susceptible to the genotoxic action of 4-hydroxy-2-nonenal. 1271 79

The cytotoxic effects of menadione and hydrogen peroxide were examined in two hepatic stellate cell lines derived from normal or cirrhotic rat liver. The cirrhotic fat-storing cells (CFSC) were found more resistant than the normal fat-storing cells (NFSC) to menadione cytotoxicity. No significant differences were observed in hydrogen peroxide toxicity in these two cell lines. Although protein levels and enzymatic activities of catalase, Cu,Zn-SOD, Mn-SOD, and NADPH cytochrome c reductase were similar in these cell lines, 20-fold increases of NAD(P)H:quinone oxidoreductase 1 (NQO1) enzymatic activity and protein levels were detected in CFSC compared to those of NFSC. Gel mobility shift assays and functional analysis using transient transfection experiments indicated the involvement of the electrophile responsive element (EPRE) in the up-regulation of the NQO1 expression. Antibody supershift analysis revealed that, although Nrf2 is a member of the EPRE-binding complex in both NFSC and CFSC, Nrf1 was identified as a part of the protein/DNA complex only in CFSC. Expression of p53 tumor suppressor gene was found in higher levels in CFSC than in NFSC. We conclude that activation of the EPRE-signaling pathway, which up-regulates several phase II genes and affects p53 stabilization, may offer resistance to hepatic stellate cells against oxidative damage during hepatic injury. This resistance may be a part of the activation process of the hepatic stellate cells and could contribute to their increased proliferation and production of extracellular matrix.
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PMID:Involvement of the electrophile responsive element and p53 in the activation of hepatic stellate cells as a response to electrophile menadione. 1272 13

The effects of proteolysis inhibitors on hydrogen peroxide (H(2)O(2))-induced apoptosis were examined in cultured human synovial cells of rheumatoid arthritis (RA) patients. RA synovial cells were resistant to apoptosis induced by H(2)O(2). In the presence of 100 microM N-acetyl-leucyl-leucyl-norleucinal (ALLN, known as calpain inhibitor 1 and also a proteasome inhibitor), but not N-acetyl-leucyl-leucyl-methioninal (ALLM), apoptotic cell death was elicited by 400 microM H(2)O(2) at a concentration that alone never induced cell death. ALLN induced the expression of tumor suppressor p53 protein and p21(WAF-1) protein, probably through inhibition of proteasome. H(2)O(2) further potentiated ALLN-induced p53 expression. H(2)O(2) appeared to activate c-Jun N-terminal kinase (JNK) as well as extracellular signal-regulated kinase (ERK) and AKT. After administration of H(2)O(2) and p53 induction by ALLN, we found that either one alone is insufficient to induce apoptosis of RA synovial cells but their combination synergistically does so. These results suggest that induction of p53 by ALLN may be potentially important for triggering H(2)O(2)-induced apoptosis processes in RA synovial cells.
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PMID:Synergistic induction of apoptosis of rheumatoid arthritis synovial cells by H(2)O(2) and N-acetyl-leucyl-leucyl-norleucinal. 1276 77

Oncogenic mutations in expressed proteins are of primary interest to understand tumor formation but their structural consequences bearing on protein function are not clearly understood. In this contribution I report on two illustrative examples, p21ras and p57, revealing that such mutations have an effect on specific structural deficiencies in the packing of the protein structure, i. e., on backbone hydrogen bonds insufficiently shielded from water attack. These structural deficiencies in the wild type are typically "corrected intermolecularly" by protein complexation or protein-ligand association. However, in the oncogenic mutants, these binding signals are partially or completely suppressed: the mutated residues properly wrap or desolvate the hydrogen bonds intramolecularly. Thus, the interactivity of the proteins becomes impaired: their binding affinity decreases sharply, as there is no thermodynamic benefit from removing water surrounding properly desolvated hydrogen bonds. The results, specialized for p21ras and p53, reveal how oncogenic mutations determine a hindrance to GAP-induced hydrolysis (p21) and decrease binding affinity for DNA (p53). Furthermore, the oncogenic potential of mutations in residues not directly engaged in the interface electrostatics is assessed. The results suggest that a high sensitivity of structural defects to genetic accident might be a necessary condition to establish the existence of a proto-oncogene, an angle that merits a systematic study.
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PMID:Oncogenic mutations and packing defects in protein structure. 1285 55


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