Global ETD Search

1	Antidepressant-Like Actions of Inhibitors of Poly(ADP-Ribose) Polymerase in Rodent Models Ordway, Gregory A., Szebeni, Attila, Hernandez, Liza J., Crawford, Jessica D., Szebeni, Katalin, Chandley, Michelle J., Burgess, Katherine C., Miller, Corwin, Bakkalbasi, Erol, Brown, Russell W. 01 December 2017 (has links) Many patients suffering from depressive disorders are refractory to treatment with currently available antidepressant medications, while many more exhibit only a partial response. These factors drive research to discover new pharmacological approaches to treat depression. Numerous studies demonstrate evidence of inflammation and elevated oxidative stress in major depression. Recently, major depression has been shown to be associated with elevated levels of DNA oxidation in brain cells, accompanied by increased gene expression of the nuclear base excision repair enzyme, poly(ADP-ribose) polymerase-1. Given these findings and evidence that drugs that inhibit poly(ADP-ribose) polymerase-1 activity have antiinflammatory and neuroprotective properties, the present study was undertaken to examine the potential antidepressant properties of poly(ADP-ribose) polymerase inhibitors. major depression antidepressant PARP inhibitor Biomedical Sciences Substance Abuse and Addiction
2	Synergistic effects of combining PARP inhibitor (AZD2281) and ATR inhibitor (AZD6738) in Ewing Sarcoma cell lines Meyer, Stephanie C. 03 July 2018 (has links) Ewing Sarcoma (ES) is an aggressive pediatric solid tumor. Even though overall-survival for localized patients is approximately 70%, the overall-survival for high risk ES patients has not improved in the last 20 years. Therefore, there is a need for exploration of new therapeutic agents in ES. Recent evidence has demonstrated that ES cells behave like BRCA-deficient tumor types which renders them sensitive to PARP inhibitors in vitro and in vivo. However, a phase II study of the efficacy of single-agent PARP inhibition in patients with relapsed ES did not significantly improve outcome. As single-agent therapy is rarely expected to result in significant clinical responses, in this study, we plan to validate potential targeted combination therapies with PARP inhibitors in ES. Since ES appears to demonstrated BRCA-deficient biology with impaired homologous recombination, cells are expected to be sensitive to both PARP inhibitors and ATR inhibitors, drugs which have a role in regulating DNA damage and impairing homologous recombination. In breast cancer and ovarian cell lines with genetic BRCA-deficiency, PARP and ATR inhibitors have synergistic activity. We hypothesize that these inhibitors will also have synergistic anti-Ewing activity. Furthermore, we recognize that ES cells demonstrate remarkably quiet genomes suggesting that there is minimal ongoing DNA-damage when cells are growing unperturbed. Therefore, we also plan to test the effect of adding low-dose genotoxic chemotherapy to induce additional sensitivity to the combination of PARP and ATR inhibitors in ES. The specific aims of this study were to explore the possible anti-tumor effect of PARP inhibitors combined with ATR inhibitors in ES cell lines, and to explore whether low dose genotoxic chemotherapy with SN38 can potentiate the anti-tumor effect of combined PARP and ATR inhibition in ES cell lines. We studied the anti-Ewing Sarcoma effect of the combination of a PARP inhibitor, AZD2281, and an ATR inhibitor, AZD6738, across a range of doses with and without low doses of a DNA damaging agent, SN38 (irinotecan metabolite), in two ES cell lines. We analyzed synergy by determining the Combination Index (CI) and Fractional Inhibition (FA) of each combination. We found that the ATR inhibitor, AZD6738, was synergistic across large range of concentrations when combined with the PARP inhibitor, AZD2281, in ES cell lines. We also found that treatment of cells with low doses of SN38 increases ES cell sensitivity to treatment with the PARP inhibitor and ATR inhibitor combination. This study provides preclinical support for additional studies exploring these combinations in ES. Given the low number of pediatric patients with ES compared to adult cancer patients, there will be limited attempts in combining these agents in clinical trials. Therefore, the development of an in vivo trial testing the safety and efficacy of this combination in ES mouse models is proposed. / 2020-07-03T00:00:00Z Cellular biology Synergy DNA damage repair Ewing sarcoma ATR inhibitor PARP inhibitor Pediatric cancer
3	Rapid and Temporary Improvement of Depression and Anxiety Observed Following Niraparib Administration: A Case Report Jewett, Benjamin E., Miller, Merry N., Ligon, Libby A., Carter, Zachary, Mohammad, Ibrahim, Ordway, Gregory A. 15 April 2020 (has links) Background: Cancer patients are disproportionately affected by generalized anxiety and major depression. For many, current treatments for these conditions are ineffective. In this case report, we present a serendipitous case of anxiety and depression improvement following administration of the poly (ADP-ribose) polymerase (PARP) inhibitor niraparib. Case presentation: A 61-year old woman with a 20-year history of mild depression developed recurrent ovarian carcinoma and was placed on niraparib for maintenance chemotherapy. With the original onset of ovarian cancer, she experienced an episode of major depression that was resolved with sertraline. After recurrence of ovarian cancer, she experienced a recurrence of major depression and a new onset of generalized anxiety that failed to completely respond to multiple medications. After beginning niraparib therapy the patient noticed a rapid resolution of the symptoms of her anxiety and depression, an effect that was limited to 10-14 days. Due to bone marrow suppression, the patient was taken off and restarted on niraparib several times. Each discontinuation of niraparib resulted in return of her depression and anxiety, while each recontinuation of niraparib resulted in an improvement in her mood and anxiety. Conclusions: This case demonstrates rapid and temporary improvement of anxiety and depression following niraparib administration. There is ample preclinical data that PARP signaling may play a role in psychiatric illness. A small amount of indirect data from clinical trials also shows that niraparib may have psychiatric benefits. Further research on PARP inhibition and its potential psychoactive effects is sorely needed. anxiety case report depression niraparib ovarian cancer PARP inhibitor Biomedical Sciences
4	Behavioral Effects and Neurobiological Mechanisms of 3-Aminobenzimide in a Rodent Model of Chronic Psychological Stress Wills, Liza 01 May 2022 (has links) Major depressive disorder (MDD) is a leading cause of disability worldwide, with a lifetime prevalence rate of approximately 20%. Inadequate pharmacological treatment methods for MDD are a significant debilitating factor. Patient estimates suggest that the treatment resistance rate for pharmacological interventions is over 30%. Postmortem analyses of human tissue of individuals diagnosed with MDD have shown an increase in Poly (ADP-ribose) polymerase 1 (PARP-1) mRNA gene expression in prefrontal cortical white matter when compared to psychiatrically normal brain tissue. In order to further investigate this issue, the present study used the social defeat stress/chronic unpredictable stress (SDS + CUS) rodent model of depression to induce a state of chronic psychological distress. Rats were treated with either the PARP-inhibitor, 3-aminobenzamide (3-AB); a common selective serotonin reuptake inhibitor (SSRI) fluoxetine (FLX), or saline. During the stress manipulation we conducted the sucrose preference test, results revealed that saline-treated rats which had undergone SDS + CUS showed significant reductions in sucrose preference compared to all other groups. In addition, a social interaction test was conducted one day after the stress manipulation, and saline-treated stressed animals demonstrated less social interaction compared to all other groups, indicating the stress manipulation was effective. Neurobiological assays were conducted to examine PARP expression, microglial morphology, and proinflammatory cytokine expression. Though we expected to find a decrease, results from immunofluorescence studies of tissue sections revealed an elevation of PARP-1 protein expression in prefrontal cortical gray matter in the FLX/Stress group compared with SAL/Stress group. Microglial morphological changes indicated that the SAL/Stress group had significantly more prolate microglia when compared to all other treatment groups, suggesting early activation of microglia, an indicator of neuroinflammation. Increases in IL-1β and TNF-⍺ expression was observed in the hippocampus of the SAL/Stress group when compared to all other treatment groups. Interestingly, IL-6 expression was significantly elevated in the SAL/Stress group when compared to the FLX/Stress group and the CTRL/No stress group but did not significantly differ from the 3-AB/Stress group. This study revealed therapeutic potential of 3-AB for the treatment of stress-related disorders, as well as the neuroinflammatory mechanisms associated with chronic stress. Major depressive disorder PARP-inhibitor Neuroinflammation Behavioral Neurobiology Biological Psychology Pharmacology
5	Mechanistic Validation of Potential Anti-Breast Cancer Therapeutics Chuang, Hsiao-Ching 27 June 2012 (has links) No description available. Biomedical Research Pharmacy Sciences &945 -tocopheryl succinate anti-adhesion triple-negative breast cancer PARP inhibitor
6	Facteurs prédictifs de mutation germinale BRCA1 dans le cancer du sein héréditaire / Prediction of BRCA1 germline mutation status in patients with breast cancer using histoprognosis grade, MS110, Lys27H3, Vimentin and KI67 Hassanein, Mohamed 16 December 2010 (has links) En France, le cancer de sein héréditaire représente environ 2500 nouveaux cas par an, dont prés de la moitié est attribuée à la mutation du gène BRCA1.La recherche de la mutation par biologie moléculaire est un travail fastidieux, coûteux et long (8 mois d’attente environ actuellement).Pour trouver une solution à ce délai, nous avons étudié en immunohistochimie une série initiale de 21 anticorps répartis en 5 groupes : anticorps antiBrca1 du commerce, liés à la perte de l’inactivation de l’X, liés à la signature basale ou myoépithéliale, anticorps dits classiques du cancer de sein et finalement dérivés de signatures établies par cDNAarray.Nous avons utilisé la technique de’ tissue microarrays’ en utilisant de manière comparative une population de 27 cas de cancer de sein présentant une mutation germinale de BRCA1, et 81 cas témoins de cancer de sein sporadiques appariés à l’âge, ainsi qu’à des lignées cellulaires d’origine mammaires. Dans une deuxième série indépendante de validation nous avons appliqué les résultats obtenus de la première série sur 28 cas de cancer mammaire muté, et 28 cas du cancer mammaire sporadique dans les mêmes conditions initiales.Nos résultats montrent pour la première fois sur des tissus tumoraux une probabilité forte d’une association entre la mutation Brca1 et la perte de l’inactivation de l’X ; confirment la valeur de MS110 comme un bon anticorps prédictif d’une mutation de Brca1 ; apportent un argument pour une participation myoépithéliale dans l’oncogenèse de cancer mammaire Brca1 muté; appuient la relation entre ce dernier et les récepteurs RE,RP ainsi que P53 , Bcl2,Ki67 et valident en protéomique la valeur discriminant de CDC47 correspondant à un des gènes de la signature génomique.Après confirmation des mêmes résultats dans la série de validation, nous soutenons en analyses multivariés un modèle qui comprend seulement Grade 3, MS110, Lys27H3 négative, Vimentine et KI67 positive. Cette équation correspond à une sensibilité de 82% et spécificité de 81% et propose une approche rapide économique de pré- ciblage de la mutation Brca1 ; ce qui améliorait la prise en charge préventive, thérapeutique et globale des patients et leurs familles. / Family structure, lack of reliable information, cost and delay are usual concerns faced with when deciding to perform BRCA analyses. Testing the breast cancer tissues with four antibodies (MS110, lys27H3, Vimentin, KI67) in addition to grade evaluation enabled to rapidly select patients to carry out genetic testing identification. We constituted an initial breast cancer tissue micro-array, considered as a learning set comprising 27 BRCA1 and 81 sporadic tumours. A second independent validation set of 28 BRCA1 tumours was matched to 28 sporadic tumours using the same original conditions.We have investigated morphological parameters and 21 markers by immunohistochemistry.A logistic regression model was used to select the minimal number of markers providing the best model to predict BRCA1 status. The model was applied to the validation set to estimate specificity and sensibility.In the initial set, the univariate analysis identified 11 markers significantly associated with BRCA1 status. Then the best multivariate model comprised only Grade 3, MS110, Lys27H3, Vimentin and KI67. When applied to the validation set, BRCA1 tumours were correctly classified with a sensitivity of 83% and a specificity of 81%. The performance of this model was superior when compared to other profiles.This work offers a new rapid and economic method for the pre-screening of patients at high risk of being BRCA1mutation carriers, then to guide genetic testing, and finally to provide appropriate preventive measure, advices and treatments including targeted therapy to patients and their families. Brca1 Chromosome X Tma Mutation germinale Cancer du sein héréditaire Triple négative Brca1 Chromosome X Germ-line mutation Hereditary breast cancer PARP inhibitor Basal
7	Synthèse et évaluation de molécules bifonctionnelles alkylantes de l’ADN et inhibitrices de la PARP pour la radiochimiothérapie concomitante / Synthesis and evaluations of dual molecules composed of a PARP inhibitor and a DNA alkylating agent for concomitant chemoradiotherapy Burckel, Hélène 20 December 2012 (has links) Cette étude a consisté en le développement et l’évaluation de nouvelles molécules pour la radiochimiothérapie concomitante. Ce travail a abouti à la conception de nouveaux agents chimiothérapeutiques duaux basés sur la combinaison covalente de deux radiosensibilisateurs: un inhibiteur de la PARP d’une part, et un alkylant de l’ADN (complexe de platine ou témozolomide) d’autre part. Les évaluations biologiques ont permis de mettre en évidence l’intérêt d’une molécule duale inhibiteur de la PARP/platine. Parallèlement à ce projet, le développement d’outils moléculaires pour l’étude d’inhibiteurs de la PARP a été entrepris. Ainsi, plusieurs sondes d’affinité ont été conçues pour une étude d’inhibiteurs de la PARP par protéomique chimique. Ce travail a permis de valider la spécificité d’une sonde d’affinité pour la PARP1 et la PARP2. Finalement, des molécules fluorescentes inhibitrices de la PARP ont été développées dans l’objectif d’un criblage d’inhibiteurs de PARP3 par anisotropie de fluorescence. / The main topic of this work was the development and biological evaluation of dual molecules for concomitant chemoradiotherapy. To this end, new dual chemotherapeutic agents were designed by linking covalently two radiosensitizers: a PARP inhibitor and an alkylating agent (platinum complex or temozolomide). This study led to an efficient PARP inhibitor/platinum dual molecule. A complementary approach was to develop affinity probes to study PARP inhibitors by a chemical proteomic method. This study permitted to validate the selectivity of an affinity probe for PARP1 and PARP2. Finally, fluorescent PARP inhibitor probes were synthesised and evaluated for a PARP3 screening by fluorescence anisotropy. Complexe de platine Témozolomide Inhibiteur de la PARP Protéomique chimique Sonde fluorescente Anisotropie de fluorescence Platinum complex Temozolomide PARP inhibitor Chemical proteomic Fluorescent probe Fluorescence anisotropy 547.7 572.8 615
8	A Study of Single-stranded DNA Gaps in the Response to Replication Stress and Synthetic Lethality Cong, Ke 03 January 2022 (has links) Mutations in the hereditary breast/ovarian cancer genes BRCA1/2 were shown to be synthetic lethal with poly(ADP-ribose) polymerase inhibitors (PARPi). This toxicity is assumed to derive from PARPi-induced DNA double strand breaks (DSBs) that necessitate BRCA function in homologous recombination (HR) and/or fork protection (FP). However, PARPi accelerates replication forks. While high-speed replication could cause DSBs, the finding that PARPi leads to single-stranded DNA (ssDNA) gaps/nicks suggests replication gaps could also or alone be the cause of synthetic lethality. Here, we demonstrate that PARPi toxicity derives from replication gaps. Isogenic cells deficient in BRCA1 or the BRCA1-associated FANCJ, with common DNA repair defects in HR and FP, exhibit opposite responses to PARPi. Deficiency in FANCJ, a helicase also mutated in hereditary breast/ovarian cancer and Fanconi anemia, causes aberrant accumulation of fork remodeling factor HLTF and limits unrestrained DNA synthesis with ssDNA gaps. Thus, we predict replication gaps as a distinguishing factor and further uncouple HR, FP and fork speed from PARPi response. BRCA-deficient cells display excessive gaps that are diminished upon resistance, restored upon re-sensitization and when targeted augment synthetic lethality with PARPi. Furthermore, we define the source of gaps to defects in Okazaki fragment processing (OFP). Unchallenged BRCA1-deficient cells have elevated poly(ADP-ribose) and chromatin-associated PARP1 but aberrantly low XRCC1 indicating a defective backup OFP pathway. Remarkably, 53BP1 loss resuscitates OFP by restoring XRCC1-LIG3 that suppresses the sensitivity of BRCA1-deficient cells to drugs targeting OFP or generating gaps. Collectively, our study highlights unprotected lagging strand gaps as a determinant of synthetic lethality, providing a new paradigm and biomarker for PARPi toxicity. Single-stranded DNA gaps Replication stress FANCJ HLTF Fanconi anemia Fork protection BRCA1/2 deficiency Homologous recombination PARP inhibitor Synthetic lethality Gap suppression Okazaki fragment processing Chemo-resistance Cancer therapy Cancer Biology
9	Rôle des inhibiteurs de PARP en association avec le carboplatine dans l’inhibition des métastases dans le cancer du sein triple négatif Hubert, Audrey 10 1900 (has links) Le cancer du sein triple négatif (CSTN) est un sous-type de cancer du sein très agressif et dépourvu de surexpression des récepteurs hormonaux et de HER2. Les tumeurs mutantes BRCA1 et BRCA2 constituent 15 à 20% des CSTN et récemment un groupe d’agent thérapeutique ciblé prometteur a vu le jour pour ce type de cancers. En effet, les inhibiteurs de PARP (PARPi) ont démontré une amélioration de la survie sans maladie à distance chez les patientes atteintes d'un cancer du sein précoce avec mutation BRCA1/2 HER2 négatif, suggérant que les PARPis peuvent éliminer la maladie micrométastatique. Cependant, des réponses plus durables seront probablement obtenues si les PARPis sont utilisés en combinaison, comme avec un autre agent endommageant l'ADN tout comme le carboplatine. De plus, il est plausible que l'efficacité puisse être améliorée et la toxicité diminuée si un PARPi puissant comme le talazoparib est administré en utilisant une approche séquentielle. Ici, nous avons évalué l'impact des stratégies de dosage concomitantes et séquentielles dans des lignées cellulaires du CSTN et trois modèles de souris de xénogreffe orthotopique. Alors que la combinaison simultanée ou séquentielle ont inhibé les volumes tumoraux primaires de la même manière, la combinaison séquentielle a diminué la migration, l'invasion, les métastases à distance et a été associée à moins de toxicité. Par conséquent, ces combinaisons du talazoparib et du carboplatine devraient être considérées dans les futurs essais cliniques comme une approche efficace pour inhiber la maladie micrométastatique et potentiellement diminuer l'utilisation de la chimiothérapie chez ces patients. / The triple-negative breast cancer (TNBC) is a very aggressive breast cancer subtype that lacks overexpression of hormone receptors and HER2. BRCA1 and BRCA2 mutant tumors constitute 15-20% of TNBC and recently, a family of promising targeted therapeutic agents has emerged for this type of cancer. Indeed, PARP inhibitors (PARPi) have been shown to improve distant disease-free survival in patients with HER2-negative BRCA1/2 mutation early breast cancer, suggesting that PARPis can eliminate micrometastatic disease. However, durable responses are likely to be obtained if PARPis are used in combination, such as with another DNA damaging agent like carboplatin. Additionally, it is plausible that efficacy may be enhanced and toxicity decreased if a potent PARPi such as talazoparib is administered using a sequential approach. Here, we evaluated the impact of the concomitant and sequential dosing strategies in TNBC cell lines and three orthotopic xenograft mouse models. While the simultaneous or sequential combination inhibited primary tumor volumes to a similar extent, the sequential combination decreased migration, invasion, distant metastasis, and was associated with less toxicity. Therefore, the sequential combination of talazoparib and carboplatin should be considered in future clinical trials as an effective approach to inhibit micrometastatic disease and potentially decrease the use of chemotherapy in these patients. cancer du sein inhibiteur de PARP Chimiothérapie Carboplatine Talazoparib Métastases Toxicité Chimiokines Migration breast cancer triple-negative breast cancer PARP inhibitor chemotherapy carboplatin Metastasis Toxicity Combination of treatments Chemokines

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