UMLS:C0596263 - FACTA Search

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Query: UMLS:C0596263 (carcinogenesis)
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This investigation demonstrates that the p53 and topoisomerase I (topo I) proteins which form a molecular complex in vivo are polyADP ribosylated following 1 Gy of gamma irradiation. Immunoprecipitations using a topo I monoclonal antibody were performed on protein extracts from gamma-irradiated TK6 human lymphoblastoid cells. Western blots on topo I immunoprecipitations probed with a polyADP-ribose polymer antibody demonstrated that several proteins, including p53, are co-immunoprecipitated with topo I. Furthermore, p53 and topo I are ADP ribosylated within 15 min following gamma irradiation. Unlike the other proteins within the complex, p53 is polyADP ribosylated at low levels in non-irradiated cells, and it is also the most heavily polyADP ribosylated following irradiation. Radiation induced polyADP ribosylation persists for at least 48 h following exposure. The DNA damage response does not involve the recruitment of free p53 to complex with topo I; the amount of p53 protein complexed with topo I was found to be independent of radiation exposure. It has recently been reported that p53 acts to catalytically stimulate the activity of topo I in the absence of DNA damage. We hypothesize that the rapid modification of the complex by polyADP ribosylation following radiation is a regulatory response to diminish topo I cleavage in the presence of DNA damage.
Carcinogenesis 1999 Aug
PMID:PolyADP-ribose-mediated regulation of p53 complexed with topoisomerase I following ionizing radiation. 1042 89

Excessive free iron and the associated oxidative damage are commonly related to carcinogenesis. Among the antioxidants known to protect against iron-induced oxidative abuse and carcinogenesis, melatonin and other indole compounds recently have received considerable attention. Indole-3-propionic acid (IPA), a deamination product of tryptophan, with a structure similar to that of melatonin, is present in biological fluids and is an effective free radical scavenger. The aim of the study was to examine the effect of IPA on experimentally induced oxidative changes in rat hepatic microsomal membranes. Microsomes were preincubated in presence of IPA (10, 3, 2, 1, 0.3, 0.1, 0.01 or 0.001 mM) and, then, incubated with FeCl(3) (0.2 mM), ADP (1.7 mM) and NADPH (0.2 mM) to induce oxidative damage. Alterations in membrane fluidity (the inverse of membrane rigidity) were estimated by fluorescence spectroscopy and lipid peroxidation by measuring concentrations of malondialdehyde+4-hydroxyalkenals (MDA+4-HDA). IPA, when used in concentrations of 10, 3 or 2 mM, increased membrane fluidity, although at these concentrations it did not influence lipid peroxidation significantly. The decrease in membrane fluidity due to Fe(3+) was completely prevented by preincubation in the presence of IPA at concentrations of 10, 3, 2 or 1 mM. The enhanced lipid peroxidation due to Fe(3+) was prevented by IPA only at the highest concentration (10 mM). It is concluded that Fe(3+)-induced rigidity and, to a lesser extent, lipid peroxidation in microsomal membranes may be reduced by IPA. However, IPA in high concentrations increase membrane fluidity. Besides melatonin, IPA may be used as a pharmacological agent to protect against iron-induced oxidative damage to membranes and, potentially, against carcinogenesis.
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PMID:Indole-3-propionic acid, a melatonin-related molecule, protects hepatic microsomal membranes from iron-induced oxidative damage: relevance to cancer reduction. 1125 33

FHIT (Fragile Histidine Triad) is a human tumor suppressor gene. The Fhit protein is believed to inhibit tumor growth by inducing apoptosis through interaction with diadenosine triphosphate (Ap(3)A). The latter is first sequestered and eventually hydrolyzed by Fhit to ADP and AMP. Thus, the balance between the cellular Ap(3)A level and Fhit enzymatic activity may affect cell death or survival. Increasing the Ap(3)A level, e.g., by inhibition of the enzyme, should prevent apoptosis and thus sustain tumorigenesis. To test if certain carcinogenic transition metals could inhibit the enzymatic activity of Fhit, purified human Fhit protein [30 nM in 1.25 mM poly(vinylpyrrolidone)], expressed in and isolated from E. coli, was incubated at pH 6.8 (50 mM HEPES buffer in 150 mM NaCl) with 120 microM Ap(3)A in the presence of 5 mM Mg(II) (activating cation) and 0-100 microM Ni(II), Cu(II), Zn(II), Cd(II), Co(II), Cr(III), As(III), or As(V). The reaction mixtures were analyzed by HPLC. The results revealed a strong inhibitory potential of Cu(II) [0.4], followed by Ni(II) [3.5] >or= Zn(II) [7.0] >> Cr(III) [73] > Cd(II) [98] >> Co(II) [432] [the numbers in brackets are IC(50) values, microM]. As(III) and As(V) had no effect. As revealed by spectrophotometry, mass spectrometry, and gel electrophoresis, the exceptionally strong inhibition by Cu(II) was associated with Fhit dimerization through formation of a disulfide bond. The other metals and also H(2)O(2) and NO did not cause the dimerization. Thus, the effect of Cu(II) must be due to its reaction with Cys-39 bearing the only thiol group in Fhit monomer. Since Cys-39 is not readily accessible in the Fhit molecule, the reaction is most likely facilitated by conformational changes which follow the coordination of Cu(II) by the surface histidines 35, 94, and/or 96. The observed inhibition of Fhit may be mechanistically involved in metal-mediated toxicity and carcinogenesis.
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PMID:In vitro inhibition of the enzymatic activity of tumor suppressor FHIT gene product by carcinogenic transition metals. 1189 78

Cancers may develop in the background of genomic instability with accumulated mutations. Helicobacter pylori gastritis is characterized by acute foveolitis of the proliferative zone, which is found in any stage of the gastritis as long as the infection persists. Because acute foveolitis targets specifically the proliferative zone of pits, the proliferating epithelial cells are under severe and persistent mutagenic pressure. In H. pylori gastritis, a characteristic morphological change of epithelial cells, the malgun (clear) cell change is frequently present in association with acute foveolitis. Malgun cells have enlarged euchromatic nuclei and abundant cytoplasm. The expression of proliferating cell nuclear antigen and cytokeratin 8 are typically up-regulated in them indicating that they are mitotically and metabolically active. Here, we report evidence for DNA damage and repair in malgun cells. Significant double-strand DNA breaks were shown by the consistent terminal dUTP nick-end labeling in the nuclei of malgun cells. Proteins related to DNA damage and repair, such as Ku, poly(ADP-ribosyl) polymerase, OGG1, and MSH2 were selectively up-regulated in malgun cells. Inducible nitric oxide synthase was also up-regulated. There were occasional bcl2- and p53-expressing cells suggesting that further steps of carcinogenesis took place at the single cell level. Our results suggest that the malgun cell change represents a characteristic morphological sign of cellular genomic damage and repair, and may be implicated in an early stage of carcinogenesis. It is suggested that acute foveolitis of the proliferative zone is a major pathogenetic step of gastric carcinogenesis in H. pylori gastritis.
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PMID:Malgun (clear) cell change in Helicobacter pylori gastritis reflects epithelial genomic damage and repair. 1265 12

Expression of glutathione S-transferase P1-1 (GSTP1-1) is correlated to carcinogenesis and resistance of cancer cells against chemotherapeutic agents. Curcumin, a natural compound extracted from Curcuma longa, has shown strong antioxidant and anticancer properties and also the ability to regulate a wide variety of genes that require activating protein 1 and nuclear factor kappaB (NF-kappaB) activation. In the present study, we examined the inhibitory effect of curcumin on the expression of GSTP1-1 mRNA as well as protein, and we correlated this inhibition with the apoptotic effect of curcumin on K562 leukemia cells. Curcumin efficiently inhibited the tumour necrosis factor alpha- and phorbol ester-induced binding of AP-1 and NF-kappaB transcription factors to sites located on the GSTP1-1 gene promoter. TNFalpha-induced GSTP1-1 promoter activity was also inhibited by curcumin as shown by reporter gene assay. In parallel, curcumin induced pro-caspases 8 and 9 as well as poly ADP ribose polymerase cleavage and thus leading to apoptosis in K562 cells. Our results overall add a novel role for curcumin as this chemoprotective compound could contribute to induce apoptosis by its ability to inhibit the GSTP1-1 expression at the level of transcription.
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PMID:Induction of apoptosis by curcumin: mediation by glutathione S-transferase P1-1 inhibition. 1455 24

The Hsp90 molecular chaperone catalyses the final activation step of many of the most important regulatory proteins of eukaryotic cells. The antibiotics geldanamycin and radicicol act as highly selective inhibitors of in vivo Hsp90 function through their ability to bind within the ADP/ATP binding pocket of the chaperone. Drugs based on these compounds are now being developed as anticancer agents, their administration having the potential to inactivate simultaneously several of the targets critical for counteracting multistep carcinogenesis. This investigation used yeast to show that cells can be rendered hypersensitive to Hsp90 inhibitors by mutation to Hsp90 itself (within the Hsp82 isoform of yeast Hsp90, the point mutations T101I and A587T); with certain cochaperone defects and through the loss of specific plasma membrane ATP binding cassette transporters (Pdr5p, and to a lesser extent, Snq2p). The T101I hsp82 and A587T hsp82 mutations do not cause higher drug affinity for purified Hsp90 but may render the in vivo chaperone cycle more sensitive to drug inhibition. It is shown that these mutations render at least one Hsp90-dependent process (deactivation of heat-induced heat shock factor activity) more sensitive to drug inhibition in vivo.
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PMID:Sensitivity to Hsp90-targeting drugs can arise with mutation to the Hsp90 chaperone, cochaperones and plasma membrane ATP binding cassette transporters of yeast. 1462 56

In cancer chemotherapy, it is necessary to design an agent that suppresses or inhibits the targets that influence cell growth and apoptosis. We focus on the apoptotic pathway via mitochondria in this article. In this pathway, c-Jun N-terminal kinase (JNK), one of the stress activated protein kinases, is predominantly activated by apoptotic stimuli. JNK activity is inhibited by the binding of glutathione S-transferase P1-1 (GST P1-1) through protein-protein interactions. It has been noted that GST P1-1 overexpression plays an important role in carcinogenesis and in part in the MDR phenotype. We show several useful modifications of an anticancer agent that suppress the enzyme activity and expression of GST P1-1. The release of cytochrome c from mitochondria to the cytosol during apoptosis is mediated by the mitochondrial permeability transition pore, which is a protein complex formed by the voltage-dependent anion channel, members of the pro- and anti- apoptotic Bax-Bcl-2 protein family, cyclophilin D, and adenine nucleotide (ADP/ATP) translocators. We propose some drugs, including a proteasome inhibitor that can triger the permeability transition.
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PMID:Chemotherapeutic agents that induce mitochondrial apoptosis. 1557 15

Poly(ADP-ribosyl)ation is a DNA strand break-driven post-translational modification of proteins catalyzed by poly(ADP-ribose) polymerase-1 (PARP-1), with NAD+ serving as substrate. Poly(ADP-ribosyl)ation is triggered by DNA strand breaks, is functionally associated with DNA repair pathways and is a survival factor for cells under low to moderate levels of genotoxic stress. We have previously described a positive correlation between poly(ADP-ribosyl)ation capacity of mononuclear blood cells with longevity of mammalian species. Our comparison of purified recombinant human and rat PARP-1 revealed that this correlation might be explained in part by evolutionary sequence divergence. We have also developed molecular genetic approaches to modulate the poly(ADP-ribosyl)ation status in living cells. Our results revealed that PARP-1 acts as a negative regulator of DNA damage-induced genomic instability, the latter being known as an important driving force for carcinogenesis. Our recent data obtained in transgenic mice with selective expression of a dominant negative version of PARP-1 in basal skin keratinocytes indicate that PARP-1 activity suppresses skin papilloma formation in a two-stage skin carcinogenesis protocol. It is tempting to speculate that increased poly(ADP-ribosyl)ation capacity in long-lived species might help retard the accumulation of DNA damage and of mutations and thus slow down the rate of aging and of carcinogenesis more efficiently as compared with short-lived animals.
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PMID:Poly(ADP-ribosyl)ation and aging. 1558 75

In the mitochondrial internal membrane, the adenine nucleotide translocator (ANT) carries out the ATP/ADP exchange between cytoplasm and mitochondrial matrix. Three isoforms with different kinetic properties are encoded from three different genes in Human: the muscle specific ANT1 and the ubiquitary ANT3 isoforms export ATP produced by mitochondrial oxidative phosphorylation (OXPHOS). The ANT2 isoform is specifically expressed in proliferative cells with a predominant glycolytic metabolism and is associated with cellular undifferentiation which is a major characteristic in carcinogenesis. Its role would be to import into mitochondria ATP produced by the glycolysis, energy essential to several intramitochondrial functions, particularly to maintenance of the membrane potential (Delta Psi m), conditioning cellular survival and proliferation. The mechanism of regeneration of this Delta Psi m gradient would involve at least three major proteins: the hexokinase II isoform, the ANT2 isoform and the F1 part of the mitochondrial ATP synthase complex. Taking into account this major role of ANT2 in cell proliferation and the very low expression of this isoform in differentiated tissues, this protein or its transcript could be chosen as a target for an anticancer strategy. Furthermore, previous studies showed that molecules of the cisplatin family, used as chemotherapeutic agents, led to the destruction of the mitochondrial membrane potential and thus to cell death. Does the anticancer effect of these molecules result, at least partially, from this mitochondrial aggression? If it is the case, the ANT2 isoform, mainly involved in the generation of this potential by its ATP4-/ADP3- exchange, could be considered as a more specific targeting by an RNA interference approach.
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PMID:[What is the specific role of ANT2 in cancer cells?]. 1569 86

Polyphenols such as epigallocatechin-3-gallate (EGCG) from green tea extract can exert a growth-suppressive effect on human pancreatic cancer cells in vitro. In pursuit of our investigations to dissect the molecular mechanism of EGCG action on pancreatic cancer, we observed that the antiproliferative action of EGCG on pancreatic carcinoma is mediated through programmed cell death or apoptosis as evident from nuclear condensation, caspase-3 activation and poly-ADP ribose polymerase (PARP) cleavage. EGCG-induced apoptosis of pancreatic cancer cells is accompanied by growth arrest at an earlier phase of the cell cycle. In addition, EGCG invokes Bax oligomerization and depolarization of mitochondrial membranes to facilitate cytochrome c release into cytosol. EGCG-induced downregulation of IAP family member X chromosome linked inhibitor of apoptosis protein (XIAP) might be helpful to facilitate cytochrome c mediated downstream caspase activation. On the other end, EGCG elicited the production of intracellular reactive oxygen species (ROS), as well as the c-Jun N-terminal kinase (JNK) activation in pancreatic carcinoma cells. Interestingly, inhibitor of JNK signaling pathway as well as antioxidant N-acetyl-L-cysteine (NAC) blocked EGCG-induced apoptosis. To summarize, our studies suggest that EGCG induces stress signals by damaging mitochondria and ROS-mediated JNK activation in MIA PaCa-2 pancreatic carcinoma cells.
Carcinogenesis 2005 May
PMID:Epigallocatechin-3-gallate induces mitochondrial membrane depolarization and caspase-dependent apoptosis in pancreatic cancer cells. 1570 1

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