Global ETD Search

271	The Role of Base Excision Repair and Mismatch Repair Proteins in the Processing of Cisplatin Interstrand Cross-Links Sawant, Akshada S. January 2014 (has links) No description available. Biomedical Research Biochemistry
272	Harnessing Macrophage Polarization for Platinum-based Immunochemotherapy Nielsen, Frederick A. 25 July 2018 (has links) No description available. Biochemistry Chemistry Macrophage Polarization Ovarian Cancer Chemotherapy Immunotherapy PtIV Prodrug Cisplatin
273	Investigating Molecular Targets of Phosphaplatins: A Class of Novel Non-DNA-Binding Platinum Anticancer Agents in the Treatment of Ovarian Cancer Majmudar, Pooja M. 25 April 2011 (has links) No description available. Cellular Biology Molecular Biology Ovarian Cancer Platinum drugs Phosphaplatin Cisplatin Carboplatin Anti-angiogenesis
274	Molecularly targeted therapy for ovarian cancer Yang, Ya-Ting 21 September 2006 (has links) No description available. ovarian cancer cisplatin resistance HDAC inhibitor PDK-1 inhbitor cell cycle arrest apoptosis cell differentiation
275	Functional studies of the interstrand cross-link repair protein, SNM1A and its beta-CASP domain Buzon, Beverlee D. 10 1900 (has links) <p>Interstrand cross-linking (ICL) damage to DNA is cytotoxic as it blocks replication and transcription. This cytotoxicity is exploited in anti-cancer therapies, but increased ICL repair limits the efficacy of these chemotherapies. SNM1A (sensitive to nitrogen mustard 1A), of the beta-CASP family of nucleases, has been shown to participate in the initiation of one of the ICL repair processes. Biochemical studies of SNM1A have been limited due to insolubility and instability of SNM1A in bacteria and insect cell lines and toxicity in human cell lines. Work reported in this thesis describes a novel and efficient method of generating active protein from inclusion body expression of the beta-CASP domain of SNM1A. This refolded beta-CASP domain shows 5’ exonuclease activity on single stranded and double stranded DNA in vitro. Nevertheless, this domain alone is unable to complement <em>pso2</em> null ICL repair defects in<em> S. cerevisiae</em> after exposure to ICL agents. These functional studies of the beta-CASP domain of SNM1A will be helpful in directing future research on its role in ICL repair. Additionally, this will aid future structural and inhibitor studies of this essential interstrand cross-link repair protein, SNM1A.</p> / Master of Science (MSc) SNM1A interstrand crosslink repair beta-CASP inclusion body protein refolding nuclease cisplatin Biochemistry Biochemistry
276	Metallohelices with activity against cisplatin-resistant cancer cells; does the mechanism involve DNA binding? Brabec, V., Howson, S.E., Kaner, R.A., Lord, Rianne M., Malina, J., Phillips, Roger M., Abdallah, Qasem M.A., McGowan, P.C., Rodger, A., Scott, P. 12 1900 (has links) Yes / Enantiomers of a relatively rigid DNA-binding metallo-helix are shown to have comparable activity to that of cisplatin against the cell lines MCF7 (human breast adenocarcinoma) and A2780 (human ovarian carcinoma) but are ca five times more active against the cisplatin-resistant A2780cis. The cell-line HCT116 p53+/+ (human colon carcinoma) is highly sensitive giving IC50 values in the nM range, far lower than the cisplatin control. The hypothesis that the biological target of such metallohelices is DNA is probed by various techniques. Tertiary structure changes in ct-DNA (formation of loops and intramolecular coiling) on exposure to the compounds are demonstrated by atomic force microscopy and supported by circular/linear dichroism in solution. Selectivity for 50-CACATA and 50-CACTAT segments is shown by DNase I footprinting. Various three- and four-way oligonucleotide junctions are stabilised, and remarkably only the L metallo-helix enantiomer stabilizes T-shaped 3WJs during gel electrophoresis; this is despite the lack of a known helix binding site. In studies with oligonucleotide duplexes with bulges it is also shown for the first time that the metallo-helix binding strength and the number of binding sites are dependent on the size of the bulge. In contrast to all the above, flexible metallo-helices show little propensity for structured or selective DNA binding, and while for A2780 the cancer cell line cytotoxicity is retained the A2780cis strain shows significant resistance. For all compounds in the study, H2AX FACS assays on HCT116 p53+/+ showed that no significant DNA damage occurs. In contrast, cell cycle analysis shows that the DNA binders arrest cells in the G2/mitosis phase, and while all compounds cause apoptosis, the DNA binders have the greater effect. Taken together these screening and mechanistic results are consistent with the more rigid helices acting via a DNA binding mechanism while the flexible assemblies do not. Metallohelices Chemotherapy Anticancer treatment Cisplatin-resistant cancer cells DNA binding REF 2014
277	Inhibition of stat3 protein as an approach to sensitizing ovarian cancer cells to cisplatin Startzman, Ashley N. 01 January 2008 (has links) Many human tumors harbor persistently-active Signal Transducer and Activator of Transcription (ST AT)3 protein. There is substantial evidence that aberrantly-active STAT3 is a master regulator of events that promote carcinogenesis and human tumor formation. Abnormal STAT3 activity induces uncontrolled growth and survival of cells, thereby contributing to neoplastic transformation and progression. Cisplatin is a major chemotherapeutic modality for ovarian cancer, but is frequently challenged by drug resistance. Given that STAT3 is aberrantly-active in many human tumors, including ovarian cancer, there is the potential that it contributes to the development of Cisplatin resistance, a problem ripe for investigation. This study was conducted to explore the potential that the aberrant STAT3 present in ovarian cancer cells contributes to the decreased sensitivity to Cisplatin observed for ovarian cancer cells. The investigation revealed that STAT3 is aberrantly activated in cancer cell lines resistant to Cisplatin, but not in sensitive cells. Inhibition of aberrant STAT3 activity by the small-molecule STAT3 inhibitor, NSC 74859, increased growth inhibition induced by Cisplatin in resistant ovarian cancer cells. Furthermore, NSC 74859 enhanced apoptosis induced by Cisplatin in resistant cells in vitro by nearly 52%. Collectively, these observations indicate that inhibition of hyperactive STAT3 increases Cisplatin sensitivity, and therefore effectiveness, in resistant cells. Thus, STAT3 represents a viable target for enhancing the sensitivity of ovarian cancer cells to Cisplatin. A2780cp A2780s Molecular Biology
278	Le rôle du lactate et du N-acétylcystéine intra-tympanique dans la prévention de l’ototoxicité secondaire au cisplatin Nader, Marc-Elie 08 1900 (has links) Objectifs Aucun agent n’a été approuvé pour prévenir l’ototoxicité secondaire au cisplatin. Nos objectifs consistaient à évaluer la protection auditive offerte par le lactate et le N-acétylcystéine (NAC) intra-tympaniques après injection de cisplatin, ainsi que l’absorption systémique du NAC intra-tympanique. Méthodes Seize cochons d’inde formaient 2 groupes ayant reçu une solution de lactate et de NAC à 20% dans l’oreille testée. L’oreille contro-latérale a reçu une solution saline contrôle. Après 30 minutes, une injection intrapéritonéale de 3 mg/kg de cisplatin a été effectuée et répétée une fois par semaine jusqu’à une dose finale de 24 mg/kg. Les potentiels évoqués auditifs du tronc cérébral (PEATC) ont été mesurés avant les injections, après 9 mg/kg et 24 mg/kg de cisplatin. Les cochlées ont été analysées au microscope électronique à balayage. La diffusion systémique du NAC a été évaluée par chromatographie en phase liquide. Résultats Pour les oreilles contrôles, les seuils auditifs des PEATC ont augmenté uniformément sur toutes les fréquences (28,4 dB en moyenne). Le groupe lactate montrait une augmentation moins importante (17,0 dB). Les basses fréquences étaient nettement moins affectées. Le groupe NAC a subi une augmentation des seuils de 89 dB. La microscopie électronique a démontré une préservation partielle des cellules ciliées externes des cochlées traitées au lactate et une destruction complète de celles traitées au NAC. La chromatographie n’a démontré aucune diffusion de NAC. Conclusions Le lactate offre une protection partielle significative contre l’ototoxicité induite par le cisplatin. Les injections de NAC n’offrent pas de protection lorsque administrées en concentrations élevée. Le NAC intra-tympanique ne se diffuse pas systémiquement. / Objectives There is no approved agent to prevent cisplatin-induced ototoxicity. Our objectives are to identify and compare the protective effect of intratympanic injections of lactate or N-acetylcysteine (NAC) in the prevention of cisplatin-induced ototoxicity and to study systemic diffusion of intratympanic NAC. Methods Sixteen guinea pigs, forming two groups, received respectively intratympanic lactate and 20% NAC in one ear. The contra-lateral ears received a control saline solution. After 30 minutes, an intra-peritoneal cisplatin injection of 3 mg/kg was performed and repeated once a week to achieve a final dose of 24mg/kg. Auditory brainstem responses (ABR) were recorded before any injection, after 9mg/kg and after 24mg/kg of cisplatin for the frequencies 2, 4, 6 and 8kHz. Cochleas were analyzed under scanning electron microscope. Systemic diffusion of NAC was studied using high performance liquid chromatography. Results For the control ears, ABR thresholds increased uniformly by an average of 28.4dB. The lactate group showed a lower threshold increase by an average of 17.0dB. The NAC showed an important threshold increase of 89.0dB. Lactate showed a significant hearing protection at 2000Hz (p<0.01). Electron microscopy revealed partial preservation of cochlear outer hair cells stereocilia for the ears treated with lactate and severe disruption for NAC group. No systemic diffusion of NAC was observed with chromatography. Conclusion Lactate offers significant partial protection against cisplatin-induced ototoxicity. NAC does not offer any protection when administered in high concentrations. Intratympanic NAC does not diffuse systemically. Cisplatin Cisplatin Ototoxicité Ototoxicity Intra-tympanique Intra-tympanic Transtympanique Transtympanic Lactate Lactate N-acétylcystéine N-acetylcysteine Chromatographie Chromatography Microscopie electronique Electronic microscopy
279	Analysis of Lipids in Kidney Tissue Using High Resolution MALDI Mass Spectrometry Imaging Aboulmagd Khodier, Sarah 25 September 2018 (has links) Massenspektrometrisches Imaging (MSI) ist unverzichtbar für die Untersuchung der räumlichen Verteilung von Molekülen in einer Vielzahl von biologischen Proben. Seit seiner Einführung hat sich MALDI zu einer dominierenden Bildgebungsmethode entwickelt, die sich als nützlich erwiesen hat, um die Komplexität von Lipidstrukturen in biologischen Geweben zu bestimmen. Einerseits ist die Rolle von Cisplatin bei der Behandlung von menschlichen malignen Erkrankungen gut etabliert, jedoch ist Nephrotoxizität eine limitierende Nebenwirkung, die Veränderungen des renalen Lipidprofils beinhaltet. Dies führte zu der Motivation, die Lipidzusammensetzung des Nierengewebes in mit Cisplatin behandelten Ratten zu untersuchen, um die involvierten Lipid-Signalwege aufzuklären. Es wurde eine Methode zur Kartierung der Lipidzusammensetzung in Nierenschnitten unter Verwendung von MALDI MSI entwickelt. Die Verteilung von Nierenlipiden in Cisplatin-behandelten Proben zeigte deutliche Unterschiede in Bezug auf die Kontrollgruppen. Darüber hinaus wurde die Beurteilung der Ionenbilder von Lipiden in Cisplatin-behandelten Nieren meist als qualitative Aspekte betrachtet. Relative quantitative Vergleiche wurden durch den variablen Einfluss von experimentellen und instrumentellen Bedingungen begrenzt. Daher bestand die Notwendigkeit, ein Normalisierungsverfahren zu entwickeln, das einen Vergleich der Lipidintensität verschiedener Proben ermöglicht. Das Verfahren verwendete einen Tintenstrahldrucker, um eine Mischung der MALDI-Matrix und der internen internen Lipid-Metall-Standards aufzubringen. Unter Verwendung von ICP-MS erlaubte der interne Metallstandard, die Konsistenz der Matrix und der internen Standards zu bestätigen. Die Anwendung der Methode zur Normalisierung von Ionenintensitäten von Nierenlipiden zeigte eine ausgezeichnete Bildkorrektur und ermöglichte einen relativen quantitativen Vergleich von Lipidbildern in Cisplatin-behandelten Proben. / Mass spectrometry imaging is indispensable for studying the spatial distribution of molecules within a diverse range of biological samples. Since its introduction, MALDI has become a dominant imaging method, which proved useful to sort out the complexity of lipid structures in biological tissues. The role of cisplatin in the treatment of human malignancies is well-established. However, nephrotoxicity is a limiting side effect that involves an acute injury of the proximal tubule and alterations in the renal lipid profile. This evolved the motivation to study the spatial distribution of lipids in the kidney tissue of cisplatin-treated rats to shed light on the lipid signaling pathways involved. A method for mapping of lipid distributions in kidney sections using MALDI-LTQ-Orbitrap was developed, utilizing the high performance of orbitrap detection. The distribution of kidney lipids in cisplatin-treated samples revealed clear differences with respect to control group, which could be correlated to the proximal tubule injury. The findings highlight the usefulness of MALDI MSI as complementary tool for clinical diagnostics. Furthermore, assessment of the ion images of lipids in cisplatin-treated kidney mostly considered qualitative aspects. Relative quantitative comparisons were limited by the variable influence of experimental and instrumental conditions. Hence, the necessity developed to establish a normalization method allowing comparison of lipid intensity in MALDI imaging measurements of different samples. The method employed an inkjet printer to apply a mixture of the MALDI matrix and dual lipid-metal internal standards. Using ICP-MS, the metal internal standard allowed to confirm the consistency of the matrix and internal standards application. Applying the method to normalize ion intensities of kidney lipids demonstrated excellent image correction and successfully enabled relative quantitative comparison of lipid images in control and cisplatin-treated samples. MALDI-Bildgebung Cisplatin Nephrotoxizität Nierenlipide interner Standard ICP-MS relative Quantifizierung MALDI imaging Cisplatin induced nephrotoxicity Kidney lipids Internal standard Relative quantification ICP-MS 543 Analytische Chemie VG 9807 ddc:543
280	Les inhibiteurs de PARP dans le traitement des cancers chimio-résistants : étude pré-clinique sur la dépendance à PARP / PARP inhibitors for the treatment of chemoresistant cancers : a preclinical study of PARP addiction Michels, Judith 12 September 2013 (has links) Introduction Le cancer bronchique est un problème de santé publique en étant la première cause de décès par cancer dans le monde. Il reste de mauvais pronostic avec une résistance au Cisplatine qui est inéluctable dans l’histoire naturelle de la maladie. Nous nous sommes intéressés à l’association du CDDP aux inhibiteurs de la Poly(ADP-ribose) polymérase. Les inhibiteurs pharmacologiques de PARP sont source d’optimisme en oncologie clinique en monothérapie pour des tumeurs déficientes pour une voie de réparation de l’ADN et en association aux cytotoxiques classiques.Matériel et méthodes Nous avons généré 9 clones résistants au CDDP après culture de la lignée A549 dans des faibles doses de CDDP. Deux inhibiteurs pharmacologiques de PARP, CEP8983 (CEP) et PJ34 (PJ), ainsi que des siRNA spécifiques de PARP1 sont utilisés pour l’inhibition de PARP. L’apoptose est mesurée en cytométrie de flux par l’intermédiaire du potentiel membranaire de la mitochondrie DiOC6(3) et la perméabilisation de la membrane plasmique est évaluée par l’iodide de propidium. Le test de clonogénicité permet d’évaluer la capacité des cellules à échapper à la mort et à former une colonie. L’activité métabolique des cellules est mesurée par la mesure de clivage du sel de tetrazolium WST-1. L’immunofluorescence sur cellules fixées a permis d’étudier les dommages de l’ADN (γH2AX), la voie intrinsèque de l’apoptose (l’activation de la caspase 3 et la libération du cytochrome c) et la recombinaison homologue (BRCA1, RAD51). En Western Blot nous avons mesuré l’expression et l’activité de PARP (PAR) ainsi que l’expression d’acteurs de la réparation par excision de base (BER) (XRCC1 and polymérase β). Nous avons développé une méthode de détection de PAR en immunohistochimie sur des tissus inclus en paraffine. Résultats Nous avons trouvé un effet synergique pour l’association du CDDP aux inhibiteurs de PARP in vitro. De façon inattendue nous avons observé que les clones résistants au CDDP développent une addiction à PARP et sont spécifiquement tués par l’inhibition de PARP contrairement à la lignée parentale. Ces clones exhibent une hyperexpression et une hyperactivité de PARP. La réponse aux inhibiteurs de PARP corrèle plus précisément avec l’activation plutôt qu’avec l’expression de PARP, pointant que PAR est un biomarqueur plus précis que PARP. Nous avons observé que l’hyperactivation de PARP accompagne une résistance induite au CDDP et prédispose à une sensibilité aux inhibiteurs de PARP dans d’autres lignées de cancer bronchique (H460 et H1650), de mésothéliome (P31), de cancer de l’ovaire (TOV112D) et de col (HeLa). Dans des expériences in vivo nous avons noté que dans les xénogreffes obtenues à partir de clones résistants au CDDP, l’expression de PAR est stablement retrouvée en immunohistochimie. Ces tumeurs répondaient à l’inhibition de PARP par le PJ en diminuant l’expression de PAR. Les clones résistants au CDDP sensibilisés aux I PARP ont une recombinaison homologue conservée, cependant ont un déficit dans les étapes terminales du BER.Conclusion Nous avons identifié un effet synergique pour l’association des inhibiteurs de PARP au CDDP de des lignées de cancer bronchique. Nous avons observé une dépendance à PARP dans des lignées de cancer bronchique résistantes au CDDP et déficientes pour l’élongation du BER. Nous postulant que PAR est un biomarqueur spécifique de la réponse aux inhibiteurs de PARP. / Introduction Driven by the facts that non small cell lung cancer (NSCLC) is the leading cause of cancer-related morbidity and mortality worldwide and that NSCLC patients often develop resistance against Cisplatin (CDDP)-based therapies, we addressed the question of the combination therapy of CDDP with poly(ADP-ribose) polymerases (PARP) inhibitors. Inhibitors of PARP have raised great expectations for the treatment of a variety of cancers, either as monotherapeutic agent against DNA repair-deficient tumours or combined to DNA-damaging compounds.Material and methods We generated nine CDDP-resistant clones by prolonged exposure to low dose CDDP of the A549 NSCLC parental cell line. Two distinct PARP inhibitors, CEP8983 (CEP) and PJ34 (PJ) as well as PARP1 knockdown with small interfering RNAs (siRNAs) were used for PARP inhibition. Apoptosis was measured by the simultaneous assessment for the loss of the mitochondrial transmembrane potential (m) and the breakdown of the plasma membrane using the m-sensitive fluorochrome DiOC6(3) and the vital dye propidium iodide, respectively. Moreover clonogenic survival was assessed. In vitro assessments of the enzymatic activity of cells were based on the reduction of the colorless tetrazolium salt. Immunofluorescence microscopy determinations were performed with antibodies specific for DNA damage (γH2AX), intrinsic apoptosis (cleaved Caspase-3 and cytochrome c), and homologous recombination (RAD51 and BRCA1). Immunoblotting was assed for PARP1 expression and activity (PAR) and base excision repair (BER) effectors (XRCC1 and polymerase β). We developed an immunohistochemical staining method that specifically detects PAR on paraffin-embedded cell pellets and tissue sections.Results We found that PARP inhibitors and PARP1 siRNAs synergized with CDDP in the killing of NSCLC cells in vitro. Unexpectedly, CDDP-resistant NSCLC cell clones developed addiction to PARP hyperactivation, thereby becoming susceptible to apoptosis induction by PARP inhibition. We showed that these cisplatin-resistant clones, exhibited high PARP protein levels and increased PARP activity, leading to an increased poly-ADP ribosylation of cellular proteins, as compared to their parental, cisplatin-sensitive counterparts. These cisplatin-resistant cells become susceptible to cell death as induced by PARP inhibition, correlating with the hyperactivity of PARP (elevated PAR levels) more accuratly than with the overexpression of PARP. Suggesting that PAR levels may constitute a more accurate biomarker than PARP to predict the sensitivity of cells to PARP inhibition. We expanded the observation that cisplatin resistance causes PARP upregulation and hyperactivation and subsequent sensitization to PARP inhibition to additional five human cancer cell lines including two NSCLC (H1650 and H460), one mesothelioma (P31), one ovarian (TOV112D) and one cervical cancer (HeLa) cell line. To get further insight into this issue, we generated in vivo experiments. Tumors derived from CDDP-resistant cells were characterized by elevated levels of PAR suggesting that PAR levels are preserved during tumor formation. Those PAR-overexpressing tumors responded to the administration of PJ in vivo with a consistent reduction in PAR immunoreactivity. CDDP resistant clones that are specifically killed by PARP inhibitors assessed efficient homologous recombination repair however deficient BER elongation.Conclusion We showed a beneficial effect for the association therapy of PARP inhibitors with CDDP in several NSCLC cell lines. We have identified an addiction to PARP in CDDP resistant cell lines with deficient BER elongation. We postulate that PAR is a specific predictive biomarker for the response to PARP inhibitors. Reparation de l'ADN PARP Cisplatine Lethalité synthétique HR BRCA Resistance au cisplatine BER DNA repair PARP Cisplatin Synthetic lethality Non small cell lung cancer HR BRCA Cisplatin resistance BER

Search results