UMLS:C0596263 - FACTA Search

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Query: UMLS:C0596263 (carcinogenesis)
64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Improved cancer detection involving suitable biomarkers with easy applicability is a challenge to our fight against cancer. Poly-ADP-ribosylation (PAR) of proteins is a likely candidate biomarker for this purpose because it meets the criterion well. This report is a step towards testing suitability of PAR as a biomarker for cancer detection. Swiss albino mice were exposed to hepatocarcinogen, dimethylnitrosamine (DMN), at a chronic dose, which is known to induce carcinogenesis in liver. PAR was monitored by a Western blot immunoprobe assay in spleen, a lymphoid organ, to find a correlation between PAR of spleen histone proteins and duration of DMN exposure. A negative, non-linear correlation was found for most histone proteins. The inhibition of PAR of histones was significant from 4 weeks onwards until the end of the observation. The inhibition was potentiated when 3-aminobenzamide was simultaneously administered. The results open up the possibility of PAR of cellular proteins being used as biomarker for cancer detection.
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PMID:Negative correlation between poly-ADP-ribosylation of spleen cell histone proteins and initial duration of dimethylnitrosamine exposure to mice in vivo measured by Western blot immunoprobe assay: a possible biomarker for cancer detection. 1573 20

In the present paper, the involvement of the family of poly(ADP-ribose) polymerases (PARPs), and especially of PARP-1, in mammalian longevity is reviewed. PARPs catalyse poly(ADP-ribosyl)ation, a covalent post-translational protein modification in eukaryotic cells. PARP-1 and PARP-2 are activated by DNA strand breaks, play a role in DNA base-excision repair (BER) and are survival factors for cells exposed to low doses of ionising radiation or alkylating agents. PARP-1 is the main catalyst of poly(ADP-ribosyl)ation in living cells under conditions of DNA breakage, accounting for about 90% of cellular poly(ADP-ribose). DNA-damage-induced poly(ADP-ribosyl)ation also functions as a negative regulator of DNA damage-induced genomic instability. Cellular poly(ADP-ribosyl)ation capacity in permeabilised mononuclear blood cells (MNC) is positively correlated with life span of mammalian species. Furthermore PARP-1 physically interacts with WRN, the protein deficient in Werner syndrome, a human progeroid disorder, and PARP-1 and WRN functionally cooperate in preventing carcinogenesis in vivo. Some of the other members of the PARP family have also been revealed as important regulators of cellular functions relating to ageing/longevity. In particular, tankyrase-1, tankyrase-2, PARP-2 as well as PARP-1 have been found in association with telomeric DNA and are able to poly(ADP-ribosyl)ate the telomere-binding proteins TRF-1 and TRF-2, thus blocking their DNA-binding activity and controlling telomere extension by telomerase.
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PMID:The emerging role of poly(ADP-ribose) polymerase-1 in longevity. 1574 77

The p53 binding protein 2 (53BP2) has been identified independently as the interacting protein to p53, Bcl-2, and p65 subunit of nuclear factor kappaB (NF-kappaB). It was demonstrated that over-expression of 53BP2 (renamed as 53BP2S) induces apoptotic cell death. In this study we explored the effect of NF-kappaB activation elicited by a physiological NF-kappaB inducer, interleukin-1beta (IL-1beta), and anti-apoptotic Bcl-2 family proteins on the 53BP2S-mediated apoptosis. We found that both NF-kappaB activation and Bcl-2 family proteins could prevent the 53BP2S-mediated depression of mitochondrial transmembrane potential, activation of caspase-9, cleavage of poly ADP ribose polymerase (PARP), and cell death. These observations suggested that 53BP2S/Bbp and its directly or indirectly interacting proteins might play crucial roles in the regulation of apoptosis and contribute to carcinogenesis. It is also suggested that 53BP2S/Bbp induces apoptosis through the mitochondrial death pathway presumably by counteracting the actions of anti-apoptotic Bcl-2 family proteins. The regulatory network of the 53BP2S-mediated apoptosis cascade including its interacting proteins is discussed.
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PMID:Inhibition of the 53BP2S-mediated apoptosis by nuclear factor kappaB and Bcl-2 family proteins. 1609 44

Poly-ADP-ribosylation (PAR) reaction, which primarily modifies histone proteins, is postulated to have decisive influence in carcinogenesis. Therefore, it has been suggested as a biomarker of carcinogenesis. Dalton's lymphoma induced ascites tumorigenesis in mice provides a convenient model to study PAR of histone proteins during late stage of cancer development. Using a Western blot immunoprobe assay of cellular PAR, this report shows that PAR of liver and spleen histone proteins was progressively and significantly reduced during Dalton's lymphoma induced ascites tumorigenesis in mice. Implication of the findings in early detection of cancer has been discussed.
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PMID:Progressive reduction in poly-ADP-ribosylation of histone proteins during Dalton's lymphoma induced ascites tumorigenesis in mice. 1612 36

Poly(ADP-ribose) (PAR) and the PAR polymerases (PARPs) that catalyze its synthesis from donor nicotinamide adenine dinucleotide (NAD+) molecules have received considerable attention in the recent literature. Poly(ADP-ribosyl)ation (PARylation) plays diverse roles in many molecular and cellular processes, including DNA damage detection and repair, chromatin modification, transcription, cell death pathways, insulator function, and mitotic apparatus function. These processes are critical for many physiological and pathophysiological outcomes, including genome maintenance, carcinogenesis, aging, inflammation, and neuronal function. This review highlights recent work on the biochemistry, molecular biology, physiology, and pathophysiology of PARylation, focusing on the activity of PARP-1, the most abundantly expressed member of a family of PARP proteins. In addition, connections between nuclear NAD+ metabolism and nuclear signaling through PARP-1 are discussed.
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PMID:Poly(ADP-ribosyl)ation by PARP-1: 'PAR-laying' NAD+ into a nuclear signal. 1614 Sep 81

Poly-ADP-ribosylation (PAR) of cellular proteins has been shown to have decisive roles in diverse cellular functions including carcinogenesis. There are indications that metabolic level of poly-ADP-ribosylated cellular proteins might indicate carcinogenesis and, therefore, could be potentially used in cancer screening program. Keeping in mind the limitations of currently available assays of cellular PAR, a new assay is being reported that measures the metabolic level of poly-ADP-ribosylated cellular proteins. The ELISA based slot and Western blot immunoassay used polyclonal antibody against natural, heterogeneous ADP-ribose polymers. It could be successfully employed to qualitatively and quantitatively assay metabolic levels of poly-ADP-ribosylated proteins of spleen and liver tissues of normal mice or mice exposed to dimethylnitrosamine for up to 8 weeks; potentially PAR of cellular proteins could be assayed in any tissue or biopsy. Implications of the results in cancer screening program have been discussed.
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PMID:Detection and quantification of poly-ADP-ribosylated cellular proteins of spleen and liver tissues of mice in vivo by slot and Western blot immunoprobing using polyclonal antibody against mouse ADP-ribose polymer. 1618 Jan 7

ADP-ribosylation is a post-translational modification resulting from transfer of the ADP-ribose moiety of NAD to protein. Mammalian cells contain mono-ADP-ribosyltransferases that catalyze the formation of ADP-ribose-(arginine) protein, which can be cleaved by a 39-kDa ADP-ribose-(arginine) protein hydrolase (ARH1), resulting in release of free ADP-ribose and regeneration of unmodified protein. Enzymes involved in poly(ADP-ribosylation) participate in several critical physiological processes, including DNA repair, cellular differentiation, and carcinogenesis. Multiple poly(ADP-ribose) polymerases have been identified in the human genome, but there is only one known poly(ADP-ribose) glycohydrolase (PARG), a 111-kDa protein that degrades the (ADP-ribose) polymer to ADP-ribose. We report here the identification of an ARH1-like protein, termed poly(ADP-ribose) hydrolase or ARH3, which exhibited PARG activity, generating ADP-ribose from poly-(ADP-ribose), but did not hydrolyze ADP-ribose-arginine, -cysteine, -diphthamide, or -asparagine bonds. The 39-kDa ARH3 shares amino acid sequence identity with both ARH1 and the catalytic domain of PARG. ARH3 activity, like that of ARH1, was enhanced by Mg(2+). Critical vicinal acidic amino acids in ARH3, identified by mutagenesis (Asp(77) and Asp(78)), are located in a region similar to that required for activity in ARH1 but different from the location of the critical vicinal glutamates in the PARG catalytic site. All findings are consistent with the conclusion that ARH3 has PARG activity but is structurally unrelated to PARG.
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PMID:Identification and characterization of a mammalian 39-kDa poly(ADP-ribose) glycohydrolase. 1627 11

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