Y Pommier

Publications (212)1194.36 Total impact

• Article: CHEK2 genomic and proteomic analyses reveal genetic inactivation or endogenous activation across the 60 cell lines of the US National Cancer Institute.

  G Zoppoli, S Solier, W C Reinhold, H Liu, J W Connelly, A Monks, R H Shoemaker, O D Abaan, S R Davis, P S Meltzer, J H Doroshow, Y Pommier
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  ABSTRACT: CHEK2 encodes a serine/threonine kinase (Chk2) activated by ATM in response to DNA double-strand breaks. On the one hand, CHEK2 has been described as a tumor suppressor with proapoptotic, cell-cycle checkpoint and mitotic functions. On the other hand, Chk2 is also commonly activated (phosphorylated at T68) in cancers and precancerous lesions. Here, we report an extensive characterization of CHEK2 across the panel of 60 established cancer cell lines from the NCI Anticancer Screen (the NCI-60) using genomic and proteomic analyses, including exon-specific mRNA expression, DNA copy-number variation (CNV) by aCGH, exome sequencing, as well as western blot analyses for total and activated (pT68-Chk2) Chk2. We show that the high heterogeneity of Chk2 levels in cancer cells is primarily due to its inactivation (owing to low gene expression, alternative splicing, point mutations, copy-number alterations and premature truncation) or reduction of protein levels. Moreover, we observe that a significant percentage of cancer cells (12% of the NCI-60 and HeLa cells) show high endogenous Chk2 activation, which is always associated with p53 inactivation, and which is accompanied by downregulation of the Fanconi anemia and homologous recombination pathways. We also report the presence of activated Chk2 (pT68-Chk2) along with histone γ-H2AX in centrosomes.
  Oncogene 07/2011; 31(4):403-18. · 6.37 Impact Factor
• Article: Dose-response transition from cell cycle arrest to apoptosis with selective degradation of Mdm2 and p21WAF1/CIP1 in response to the novel anticancer agent, aminoflavone (NSC 686,288).

  L-H Meng, K W Kohn, Y Pommier
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  ABSTRACT: Aminoflavone (AF, NSC 686,288) is beginning clinical trials. It induces replication-mediated histone H2AX phosphorylation, DNA-protein crosslinks and activates p53. Here, we studied p21(CIP1/WAF1) and Mdm2 responses to AF. Although p53 stabilization and phosphorylation at serine 15 increased with dose and time of exposure, Mdm2 and p21(CIP1/WAF1) protein levels displayed a biphasic response, as they accumulated at submicromolar doses and then decreased with increasing AF. As both Mdm2 and p21(CIP1/WAF1) mRNA levels increased with AF concentration without reduction at higher concentrations, we measured the half-lives of Mdm2 and p21(CIP1/WAF1) proteins. Mdm2 and p21(CIP1/WAF1) half-lives were shortened with increasing AF concentrations. Proteasomal degradation appears responsible for the decrease of both Mdm2 and p21(CIP1/WAF1), as MG-132 prevented their degradation and revealed AF-induced Mdm2 polyubiquitylation. AF also induced protein kinase B (Akt) activation, which was reduced with increasing AF concentrations. Suppression of Akt by small interfering RNA was associated with downregulation of Mdm2 and p21(CIP1/WAF1) and with enhanced apoptosis. These results suggest that the cellular responses to AF are determined at least in part by Mdm2 and p21(CIP1/WAF1) protein levels, as well as by Akt activity, leading either to cell cycle arrest when Mdm2 and p21(CIP1/WAF1) are elevated, or to apoptosis when Mdm2 and p21(CIP1/WAF1) are degraded by the proteasome and Akt insufficiently activated to protect against apoptosis.
  Oncogene 08/2007; 26(33):4806-16. · 6.37 Impact Factor
• Article: p21CDKN1A allows the repair of replication-mediated DNA double-strand breaks induced by topoisomerase I and is inactivated by the checkpoint kinase inhibitor 7-hydroxystaurosporine.

  T Furuta, R L Hayward, L-H Meng, H Takemura, G J Aune, W M Bonner, M I Aladjem, K W Kohn, Y Pommier
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  ABSTRACT: This study provides evidence for the importance of p21(CDKN1A) for the repair of replication-mediated DNA double-strand breaks (DSBs) induced by topoisomerase I. We report that defects of p21(CDKN1A) and p53 enhance camptothecin-induced histone H2AX phosphorylation (gammaH2AX), a marker for DNA DSBs. In human colon carcinoma HCT116 cells with wild-type (wt) p53, gammaH2AX reverses after camptothecin removal. By contrast, gammaH2AX increases after camptothecin removal in HCT116 cells deficient for p53 (p53-/-) or p21(CDKN1A) (p21-/-) as the cells reach the late-S and G2 phases. Since p21-/- cells exhibit similar S-phase arrest as wt cells in response to camptothecin and aphidicolin does not abrogate the enhanced gammaH2AX formation in p21-/- cells, we conclude that enhanced gammaH2AX formation in p21-/- cells is not due to re-replication. The cell cycle checkpoint abrogator and Chk1/Chk2 inhibitor 7-hydroxystaurosporine (UCN-01) also increases camptothecin-induced gammaH2AX formation and inhibits camptothecin-induced p21(CDKN1A) upregulation in HCT116 wt cells. TUNEL (terminal deoxynucleotidyl transferase (TdT)-mediated dUTP-biotin nick end labeling) assays demonstrate that gammaH2AX formation in late S and G2 cells following CPT treatment corresponds to DNA breaks. However, these breaks are not related to apoptotic DNA fragmentation. We propose that p21(CDKN1A) prevents the collapse of replication forks damaged by stabilized topoisomerase I cleavage complexes.
  Oncogene 06/2006; 25(20):2839-49. · 6.37 Impact Factor
• Article: Targeting Chk2 Kinase: Molecular Interaction Maps and Therapeutic Rationale

  Y. Pommier, O. Sordet, A. Rao, H. Zhang, K. W. Kohn
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  ABSTRACT: Most anticancer drugs presently used clinically target genomic DNA. The selectivity of these anticancer drugs for tumor tissues is probably due to tumor-specific defects suppressing cell cycle checkpoints and DNA repair, and enhancing apoptotic response in the tumor. We will review the molecular interactions within the ATM-Chk2 pathway implicating the DNA damage sensor kinases (ATM, ATR and DNA-PK), the adaptor BRCT proteins (Nbs1, Brca1, 53BP1, MDC1) and the effector kinases (Chk2, Chk1, Plk3, JNK, p38). The molecular interaction map convention (MIM) will be used for presenting this molecular network (http://discover.nci.nih.gov/mim/). A characteristic of the ATM-Chk2 pathway is its redundancy. First, ATM and Chk2 phosphorylate common substrates including p53, E2F1, BRCA1, and Chk2 itself, which suggests that Chk2 (also known as CHECK2, Cds1 in fission yeast, and Dmchk2 or Dmnk or Loki in the fruit fly) acts as a relay for ATM and/or as a salvage pathway when ATM is inactivated. Secondly, redundancy is apparent for the substrates, which can be phosphorylated/activated at similar residues by Chk2, Chk1, and the polo kinases (Plk's). Functionally, Chk2 can activate both apoptosis (via p53, E2F1 and PML) and cell cycle checkpoint (via Cdc25A and Cdc25C, p53, and BRCA1). We will review the short list of published Chk2 inhibitors. We will also propose a novel paradigm for screening interfacial inhibitors of Chk2. Chk2 inhibitors might be used to enhance the tumor selectivity of DNA targeted agents in p53-deficient tumors, and for the treatment of tumors whose growth depends on enhanced Chk2 activity.
  Current Pharmaceutical Design 07/2005; 11(22):2855-2572Publisher: Bentham Science Publishers < previous article | view table of contents | next article > Buy & download fulltext article: OR Pressing the buy now button more than once may result in multiple purchases Price: $63.10 plus tax. · 3.87 Impact Factor
• Article: Interfacial Inhibitors of Protein-Nucleic Acid Interactions

  Y. Pommier, C. Marchand
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  ABSTRACT: This essay develops the paradigm of “Interfacial Inhibitors” (Pommier and Cherfils, TiPS, 2005, 28: 136) for inhibitory drugs beside orthosteric (competitive or non-competitive) and allosteric inhibitors. Interfacial inhibitors bind with high selectivity to a binding site involving two or more macromolecules within macromolecular complexes undergoing conformational changes. Interfacial binding traps (generally reversibly) a transition state of the complex, resulting in kinetic inactivation. The exemplary case of interfacial inhibitor of protein-DNA interface is camptothecin and its clinical derivatives. We will also provide examples generalizing the interfacial inhibitor concept to inhibitors of topoisomerase II (anthracyclines, ellipticines, epipodophyllotoxins), gyrase (quinolones, ciprofloxacin, norfloxacin), RNA polymerases (a-amanitin and actinomycin D), and ribosomes (antibiotics such as streptomycin, hygromycin B, tetracycline, kirromycin, fusidic acid, thiostrepton, and possibly cycloheximide). We discuss the implications of the interfacial inhibitor concept for drug discovery.
  Current Medicinal Chemistry - Anti-Cancer Agents 06/2005; 5(4):421-429.
• Article: Loss of heterozygosity of nucleotide excision repair factors in sporadic ovarian, colon and lung carcinomas: implication for their roles of carcinogenesis in human solid tumors.

  Y Takebayashi, K Nakayama, A Kanzaki, H Miyashita, O Ogura, S Mori, M Mutoh, K Miyazaki, M Fukumoto, Y Pommier
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  ABSTRACT: The deficiencies of nucleotide excision repair (NER) factors are genetic diseases, xeroderma pigmentosum (XP) increasing risk of developing cancer on sun-exposed areas of the skin. However, the abnormality of NER factors in human sporadic carcinoma remains unclear. Loss of heterozygosity (LOH) analysis for the XP, XPA, XPB, XPC, XPD, XPE, XPF, XPG and the transcription-coupled repair factor, Cockayne syndrome B (CSB) revealed that NER factors were abnormal in 62.1 % of ovarian tumors (18/29), 16.7% of colon (2/12) and 22.2% lung (2/9) carcinomas. Furthermore, 13.8% of ovarian, 8.3% of colon and 22% of lung carcinomas exhibited LOH for NER factors without LOH for tumor suppressor genes such as p53, FHIT, APC, BRCAI, BRCA2 and DCC. Although both microsatellite instability and LOH of NER factors were observed in some cases, there was no strong association between them in the present study. These observations raise the possibility that alterations of NER factors may be frequent in human sporadic carcinomas. Further study should be needed to find the direct evidence of NER gene abnormalities in human sporadic carcinoma tissues.
  Cancer Letters 01/2002; 174(2):115-25. · 4.24 Impact Factor
• Article: Dual role of glutathione in modulating camptothecin activity: depletion potentiates activity, but conjugation enhances the stability of the topoisomerase I-DNA cleavage complex.

  M P Gamcsik, M S Kasibhatla, D J Adams, J L Flowers, O M Colvin, G Manikumar, M Wani, M E Wall, G Kohlhagen, Y Pommier
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  ABSTRACT: Depletion of glutathione (GSH) in MCF-7 and MDA-MB-231 cell lines by pretreatment with the GSH synthesis inhibitor buthionine sulfoximine potentiated the activity of 10,11-methylenedioxy-20(S)-camptothecin, SN-38 [7-ethyl-10-hydroxy-20(S)-camptothecin], topotecan, and 7-chloromethyl-10,11-methylenedioxy-20(S)-camptothecin (CMMDC). The greatest potentiation was observed with the alkylating camptothecin CMMDC. Buthionine sulfoximine pretreatment also increased the number of camptothecin-induced DNA-protein crosslinks, indicating that GSH affects the mechanism of action of camptothecin. We also report that GSH interacts with CMMDC to form a stable conjugate, 7-(glutathionylmethyl)-10,11-methylenedioxy-20(S)-camptothecin (GSMMDC), which is formed spontaneously in buffered solutions and in MCF-7 cells treated with CMMDC. GSMMDC was synthesized and found to be nearly as active as 10,11-methylenedioxy-20(S)-camptothecin in a topoisomerase (topo) I-mediated DNA nicking assay. The resulting topo I cleavage complexes were remarkably stable. In cell culture, GSMMDC displayed potent growth-inhibitory activity against U937 and P388 leukemia cell lines. GSMMDC was not active against a topo I-deficient P388 cell line, indicating that topo I is its cellular target. Peptide-truncated analogues of GSMMDC were prepared and evaluated. All three derivatives [7-(gamma-glutamylcysteinylmethyl)-10,11-methylenedioxy-20(S)-camptothecin, 7-(cysteinylglycylmethyl)-10,11-methylenedioxy-20(S)-camptothecin, and 7-(cysteinylmethyl)-10,11-methylenedioxy-20(S)-camptothecin] displayed topo I and cell growth-inhibitory activity. These results suggest that 7-peptidyl derivatives represent a new class of camptothecin analogues.
  Molecular Cancer Therapeutics 12/2001; 1(1):11-20. · 5.23 Impact Factor
• Article: Antisense inhibition of Chk2/hCds1 expression attenuates DNA damage-induced S and G2 checkpoints and enhances apoptotic activity in HEK-293 cells.

  Q Yu, J H Rose, H Zhang, Y Pommier
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  ABSTRACT: The cellular response to DNA damage involves checkpoint controls that delay cell cycle progression in order to provide time for repair of damaged DNA. Chk2/hCds1 is a recently identified homolog of the yeast Cds1 kinase that is involved in cell cycle checkpoint response to DNA damage. To investigate the functions of Chk2/hCds1 in response to DNA damage in mammalian cells, we established a stable human kidney embryonic cell line (HEK-293) that expresses antisense Chk2/hCds1 (Chk2AS) under the control of an inducible promoter. Cells that express Chk2AS display defective S-phase delay in response to DNA replication-mediated DNA damage induced by the topoisomerase I inhibitor camptothecin. The defective G2 checkpoint was also observed in Chk2AS cells exposed to the DNA damaging agent VP-16 or gamma-radiation. Enhanced apoptosis was observed in Chk2AS cells after exposure to gamma-radiation or camptothecin. No p53 activation was observed after DNA damage in HEK-293 or Chk2AS cells. Our results indicate that perturbation of Chk2/hCds1 expression adversely affects the S- and G2-phase checkpoints following DNA damage or DNA replication block, and suggest that reduced expression of Chk2/hCds1 might promote a p53-independent apoptotic response.
  FEBS Letters 10/2001; 505(1):7-12. · 3.54 Impact Factor
• Source

  Available from: gene-chips.com

  Article: Quantitative structure-antitumor activity relationships of camptothecin analogues: cluster analysis and genetic algorithm-based studies.

  Y Fan, L M Shi, K W Kohn, Y Pommier, J N Weinstein
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  ABSTRACT: Topoisomerase 1 (top1) inhibitors are proving useful against a range of refractory tumors, and there is considerable interest in the development of additional top1 agents. Despite crystallographic studies, the binding site and ligand properties that lead to activity are poorly understood. Here we report a unique approach to quantitative structure-activity relationship (QSAR) analysis based on the National Cancer Institute's (NCI) drug databases. In 1990, the NCI established a drug discovery program in which compounds are tested for their ability to inhibit the growth of 60 different human cancer cell lines in culture. More than 70 000 compounds have been screened, and patterns of activity against the 60 cell lines have been found to encode rich information on mechanisms of drug action and drug resistance. Here, we use hierarchical clustering to define antitumor activity patterns in a data set of 167 tested camptothecins (CPTs) in the NCI drug database. The average pairwise Pearson correlation coefficient between activity patterns for the CPT set was 0.70. Coherence between chemical structures and their activity patterns was observed. QSAR studies were carried out using the mean 50% growth inhibitory concentrations (GI(50)) for 60 cell lines as the dependent variables. Different statistical methods, including stepwise linear regression, principal component regression (PCR), partial least-squares regression (PLS), and fully cross-validated genetic function approximation (GFA) were applied to construct quantitative structure-antitumor relationship models. For our data set, the GFA method performed better in terms of correlation coefficients and cross-validation analysis. A number of molecular descriptors were identified as being correlated with antitumor activity. Included were partial atomic charges and three interatomic distances that define the relative spatial dispositions of three significant atoms (the hydroxyl hydrogen of the E-ring, the lactone carbonyl oxygen of the E-ring, and the carbonyl oxygen of the D-ring). The cross-validated r(2) for the final GFA model was 0.783, indicating a predictive QSAR model.
  Journal of Medicinal Chemistry 10/2001; 44(20):3254-63. · 5.25 Impact Factor
• Source

  Available from: pnas.org

  Article: Human mitochondrial topoisomerase I.

  H Zhang, J M Barceló, B Lee, G Kohlhagen, D B Zimonjic, N C Popescu, Y Pommier
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  ABSTRACT: Tension generated in the circular mitochondrial genome during replication and transcription points to the need for mtDNA topoisomerase activity. Here we report a 601-aa polypeptide highly homologous to nuclear topoisomerase I. The N-terminal domain of this novel topoisomerase contains a mitochondrial localization sequence and lacks a nuclear localization signal. Therefore, we refer to this polypeptide as top1mt. The pattern of top1mt expression matches the requirement for high mitochondrial activity in specific tissues. top1mt is a type IB topoisomerase that requires divalent metal (Ca(2+) or Mg(2+)) and alkaline pH for optimum activity. The TOP1mt gene is highly homologous to the nuclear TOP1 gene and consists of 14 exons. It is localized on human chromosome 8q24.3.
  Proceedings of the National Academy of Sciences 10/2001; 98(19):10608-13. · 9.68 Impact Factor
• Article: Antiproliferative activity of ecteinascidin 743 is dependent upon transcription-coupled nucleotide-excision repair.

  Y Takebayashi, P Pourquier, D B Zimonjic, K Nakayama, S Emmert, T Ueda, Y Urasaki, A Kanzaki, S I Akiyama, N Popescu, K H Kraemer, Y Pommier
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  ABSTRACT: While investigating the novel anticancer drug ecteinascidin 743 (Et743), a natural marine product isolated from the Caribbean sea squirt, we discovered a new cell-killing mechanism mediated by DNA nucleotide excision repair (NER). A cancer cell line selected for resistance to Et743 had chromosome alterations in a region that included the gene implicated in the hereditary disease xeroderma pigmentosum (XPG, also known as Ercc5). Complementation with wild-type XPG restored the drug sensitivity. Xeroderma pigmentosum cells deficient in the NER genes XPG, XPA, XPD or XPF were resistant to Et743, and sensitivity was restored by complementation with wild-type genes. Moreover, studies of cells deficient in XPC or in the genes implicated in Cockayne syndrome (CSA and CSB) indicated that the drug sensitivity is specifically dependent on the transcription-coupled pathway of NER. We found that Et743 interacts with the transcription-coupled NER machinery to induce lethal DNA strand breaks.
  Nature Medicine 09/2001; 7(8):961-6. · 22.46 Impact Factor
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  Available from: 144.206.159.178

  Article: Arylisothiocyanate-containing esters of caffeic acid designed as affinity ligands for HIV-1 integrase.

  X Zhang, N Neamati, Y K Lee, A Orr, R D Brown, N Whitaker, Y Pommier, T R Burke
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  ABSTRACT: Integrase is an enzyme found in human immunodeficiency virus, which is required for the viral life cycle, yet has no human cellular homologue. For this reason, HIV integrase (IN) has become an important target for the development of new AIDS therapeutics. Irreversible affinity ligands have proven to be valuable tools for studying a number of enzyme and protein systems, yet to date there have been no reports of such affinity ligands for the study of IN. As an initial approach toward irreversible ligand design directed against IN, we appended isothiocyanate functionality onto caffeic acid phenethyl ester (CAPE), a known HIV integrase inhibitor. The choice of isothiocyanate as the reactive functionality, was based on its demonstrated utility in the preparation of affinity ligands directed against a number of other protein targets. Several isomeric CAPE isothiocyanates were prepared to explore the enzyme topography for reactive nitrogen and sulfur nucleophiles vicinal to the enzyme-bound CAPE. The preparation of these CAPE isothiocyanates, required development of new synthetic methodology which employed phenyl thiocarbamates as latent isothiocyanates which could be unmasked near the end of the synthetic sequence. When it was observed that beta-mercaptoethanol (beta-ME), which is required to maintain the catalytic activity of soluble IN (a F185KC280S mutant), reacted with CAPE isothiocyanate functionality to form the corresponding hydroxyethylthiocarbamate, a variety of mutant IN were examined which did not require the presence of beta-ME for catalytic activity. Although in these latter enzymes, CAPE isothiocyanate functionality was presumed to be present and available for acylation by IN nucleophiles, they were equally effective against Cys to Ser mutants. One conclusion of these studies, is that upon binding of CAPE to the integrase, nitrogen or sulfur nucleophiles may not be properly situated in the vicinity of the phenethyl aryl ring to allow reaction with and covalent modification of reactive functionality, such as isothiocyanate groups. The fact that introduction of the isothiocyanate group onto various positions of the phenethyl ring or replacement of the phenyl ring with naphthyl rings, failed to significantly affect inhibitory potency, indicates a degree of insensitivity of this region of the molecule toward structural modification. These findings may be useful in future studies concerned with the development and use of HIV-1 integrase affinity ligands.
  Bioorganic & Medicinal Chemistry 08/2001; 9(7):1649-57. · 2.92 Impact Factor
• Article: Discovery of a nuclease-resistant, non-natural dinucleotide that inhibits HIV-1 integrase.

  M Taktakishvili, N Neamati, Y Pommier, V Nair
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  ABSTRACT: Integration of HIV viral DNA into human chromosomal DNA catalyzed by HIV integrase is essential for the replication of HIV. Discovery of novel inhibitors of HIV integrase is of considerable significance in approaches to the development of therapeutic agents against AIDS. We have synthesized a new dinucleotide 1 with an internucleotide phosphate bond that is unusually resistant to exonucleases. This compound exhibits potent anti-HIV-1 integrase activity.
  Bioorganic & Medicinal Chemistry Letters 07/2001; 11(11):1433-5. · 2.55 Impact Factor
• Article: Activation of the Fas pathway independently of Fas ligand during apoptosis induced by camptothecin in p53 mutant human colon carcinoma cells.

  R G Shao, C X Cao, W Nieves-Neira, M T Dimanche-Boitrel, E Solary, Y Pommier
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  ABSTRACT: The present study explored the role of the cell surface receptor Fas (CD95/APO-1) in apoptosis induced by camptothecin (CPT) in the HT29 colon carcinoma cell line. CPT-induced apoptosis was associated with high molecular weight DNA fragmentation as measured by filter elution. This fragmentation was inhibited by the caspase inhibitor, z-VAD-fmk and by cycloheximide, which also prevented proteolytic activation of caspase-3 and poly(ADP-ribose)polymerase cleavage. Under such conditions, Fas, Fas ligand, Bax, and p21 expression were increased and Fas recruited the FADD adaptor. Fas expression increase was blocked by cycloheximide but not by z-VAD-fmk, consistent with caspase activation downstream from Fas. Treatment of HT29 cells with FasL or with the CH-11 agonistic anti-Fas antibody potentiated the apoptotic response of cells treated with CPT. The anti-Fas blocking antibody ZB4 and the Fas-ligand inhibitor failed to protect HT29 cells from CPT-induced apoptosis. Such a protection was obtained by transient expression of constructs encoding a dominant-negative mutant of FADD, FADD in an antisense orientation and E8 or MC159 viral proteins that inhibit Fas-induced apoptosis at the level of FADD and procaspase-8, respectively. Together, these data show that topoisomerase I-mediated DNA damage-induced apoptosis involves activation of the Fas pathway without detectable Fas-ligand requirement in CPT-treated cells.
  Oncogene 05/2001; 20(15):1852-9. · 6.37 Impact Factor
• Article: Characterization of a novel topoisomerase I mutation from a camptothecin-resistant human prostate cancer cell line.

  Y Urasaki, G S Laco, P Pourquier, Y Takebayashi, G Kohlhagen, C Gioffre, H Zhang, D Chatterjee, P Pantazis, Y Pommier
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  ABSTRACT: In this study, we characterized the structure and function of topoisomerase I (top1) protein in the camptothecin (CPT)-resistant prostate cancer cell lines, DU-145/RC0.1 and DU-145/RC1 (RC0.1 and RC1, respectively). Both of the cell lines were previously selected by continuous exposure to 9-nitro-CPT. The RC0.1 and RC1 cells have high cross-resistance to CPT derivatives including SN-38 and topotecan, but are not cross-resistant to the non-top1 inhibitors etoposide, doxorubicin, and vincristine. Although the top1 protein levels were not decreased in the resistant cells compared with the parental cells, CPT-induced DNA cleavage was markedly reduced in the RC0.1 and RC1 nuclear extracts. The resistant-cell-line nuclear extracts also demonstrated top1 catalytic activity and resistance to CPT, in in vitro assays. Reverse transcription-PCR products from the resistant cell lines were sequenced, and revealed a point mutation resulting in a R364H mutation in the top1 of both RC0.1 and RC1. No wild-type top1 RNA or genomic DNA was detected in the resistant cell lines. Using a purified recombinant R364H top1, we found that the R364H mutant top1 was CPT resistant and fully active. In the published top1 crystal structure, the R364H mutation is close to the catalytic tyrosine and other well-known mutations leading to CPT resistance.
  Cancer Research 04/2001; 61(5):1964-9. · 7.86 Impact Factor
• Article: In vitro human immunodeficiency virus type 1 integrase assays.

  C Marchand, N Neamati, Y Pommier
  Methods in Enzymology 02/2001; 340:624-33. · 2.04 Impact Factor
• Article: Topoisomerase I-mediated cytotoxicity of N-methyl-N'-nitro-N-nitrosoguanidine: trapping of topoisomerase I by the O6-methylguanine.

  P Pourquier, J L Waltman, Y Urasaki, N A Loktionova, A E Pegg, J L Nitiss, Y Pommier
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  ABSTRACT: Alkylating agents such as N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) are known to covalently link alkyl groups at the position 6 of guanines (O6MG) in DNA. O6-alkylguanine-DNA alkyltransferase (AGT) specifically removes the methyl group of the O6MG. Using purified human topoisomerase I (Top1), we found an 8-10-fold enhancement of Top1 cleavage complexes when O6MG is incorporated in oligonucleotides at the +1 position relative to a unique Top1 cleavage site. Top1 poisoning by O6MG is attributable to a decrease of the Top1-mediated DNA religation as well as an increase in the enzyme cleavage step. Increased cleavage is probably linked to a change in the hydrogen bonding pattern, such as in the case of the 8-oxoguanine, whereas inhibition of religation could be attributed to altered base pairing, such as abasic sites or base mismatches, because incorporation of a 6-thioguanine did not affect Top1 activity. Top1-DNA covalent complexes are also induced in MNNG-treated CHO cells constitutively lacking the AGT enzyme. Conversely, no increase could be detected in CHO cells transfected with the wild-type human AGT. Moreover, we show that yeasts overexpressing the human Top1 are more sensitive to MNNG, whereas knock-out Top1 strain cells display some resistance to the drug. Altogether, these results suggest a role for Top1 poisoning by alkylated bases in the antiproliferative activity of alkylating agents as well as in the DNA lesions resulting from endogenous and carcinogenic DNA modifications.
  Cancer Research 02/2001; 61(1):53-8. · 7.86 Impact Factor
• Article: Ecteinascidin 743 induces protein-linked DNA breaks in human colon carcinoma HCT116 cells and is cytotoxic independently of topoisomerase I expression.

  Y Takebayashi, F Goldwasser, Y Urasaki, G Kohlhagen, Y Pommier
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  ABSTRACT: Ecteinascidin 743 (Et743; NSC 648766) is a potent antitumor agent presently in clinical trials. Et743 selectively alkylates guanine N2 from the minor groove of duplex DNA and bends the DNA toward the major groove. This differentiates Et743 from other DNA-alkylating agents presently in the clinic. To date, the cellular effects of Et743 have not been elucidated. Recently, Et743 DNA adducts have been found to suppress gene expression selectively and to induce topoisomerase I (top1) cleavage complexes in vitro and top1-DNA complexes in cell culture. In the present study, we characterized the DNA damage and the cell cycle response induced by Et743 in human colon carcinoma HCT116 cells. Alkaline elution experiments demonstrated that micromolar concentrations of Et743 produced comparable frequencies of DNA-protein cross-links and DNA single-strand breaks. The single-strand breaks were protein-cross-linked and were not associated with detectable DNA double-strand breaks. By contrast with camptothecin, these lesions persisted for several hours after drug removal and were not formed at 4 degrees C. Et743 treatment induced transient p53 elevation, dose-dependent cell cycle accumulation in G2-M and in G1- and S-phase, and inhibition of DNA synthesis. The sensitivity of camptothecin-resistant mouse leukemia P388/ CPT45 cells, which fail to express detectable top1, was similar to the sensitivity of wild-type P388 cells, suggesting that top1 is not a critical target for the antiproliferative activity of Et743.
  Clinical Cancer Research 02/2001; 7(1):185-91. · 7.74 Impact Factor
• Article: Use of camptothecin-resistant mammalian cell lines to evaluate the role of topoisomerase I in the antiproliferative activity of the indolocarbazole, NB-506, and its topoisomerase I binding site.

  Y Urasaki, G Laco, Y Takebayashi, C Bailly, G Kohlhagen, Y Pommier
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  ABSTRACT: NB-506 is a topoisomerase I (top1) inhibitor in clinical trials. In this study, we used a series of camptothecin (CPT)-resistant cell lines with known top1 alterations. We show that three mutations in different domains of the top1 enzyme that confer CPT resistance also confer cross-resistance to NB-506. The CPT-resistant cell lines and corresponding mutations were: human prostate carcinoma cells DU-145/RC1 (mutation R364H), Chinese hamster fibroblasts DC3F/C10 (mutation G503S), and human leukemia CEM/C2 cells (N722S). This result suggests that NB-506 and CPT share a common binding site in the top1-DNA complex. We next used these three cell lines and their parental cells to study the relationship between top1 poisoning by NB-506 and antiproliferative activity. We found that the CPT-resistant cells were only 2-10-fold resistant to NB-506, which suggests that NB-506 targets other cellular processes/pathways besides top1. This conclusion was further supported by the limited cross-resistance of top1-deficient murine leukemia P388/CPT45 cells (2-fold). Cross-resistance was also limited for J-109,382, an isomer of NB-506 that does not intercalate into DNA, indicating that the non-top1-mediated antiproliferative activity of NB-506 is not attributable to DNA intercalation. Together, these data indicate that NB-506 and indolocarbazoles are promising agents to overcome CPT resistance.
  Cancer Research 02/2001; 61(2):504-8. · 7.86 Impact Factor
• Article: Topoisomerase I-mediated DNA damage.

  P Pourquier, Y Pommier
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  ABSTRACT: Topoisomerase I is a ubiquitous and essential enzyme in multicellular organisms. It is involved in multiple DNA transactions including DNA replication, transcription, chromosome condensation and decondensation, and probably DNA recombination. Besides its activity of DNA relaxation necessary to eliminate torsional stresses associated with these processes, topoisomerase I may have other functions related to its interaction with other cellular proteins. Topoisomerase I is the target of the novel anticancer drugs, the camptothecins. Recently a broad range of physiological and environmentally-induced DNA modifications have also been shown to poison topoisomerases. This review summarizes the various factors that enhance or suppress top1 cleavage complexes and discusses the significance of such effects. We also review the different mechanisms that have been proposed for the repair of topoisomerase I-mediated DNA lesions.
  Advances in Cancer Research 02/2001; 80:189-216. · 4.46 Impact Factor