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La phosphorylation de CARM1 empêche l'interaction entre PRMT1 et CARM1, deux « Protein Arginine MethylTransférases » impliquées dans la prolifération dans le cancer du poumon / CARM1 phosphorylation prevents interaction between PRMT1 and CARM1, two <<protein arginine methyltransferases>> involved in proliferation in lung cancerAkoum, Rania El 16 October 2013 (has links)
CARM1 et PRMT1 sont 2 Protein Arginine MethylTransferases (PRMTs) impliquées dans la prolifération et dérégulées dans le cancer. La dimérisation est une caractéristique commune aux PRMTs. PRMT1 et CARM1 coopèrent dans la régulation des gènes mais il n'existe pas de données concernant un hétérodimère CARM1/PRMT1. Nous avons trouvé que PRMT1 et CARM1 sont surexprimées dans le cancer du poumon non à petites cellules et dans 2 lignées d'adénocarcinomes pulmonaires, A549 et H1299. Les siPRMT1 réduisent la prolifération cellulaire et facilitent la différentiation. Les siCARM1 produisent un effet similaire mais, comme ceci a déjà été décrit, suppriment l'expression de PRMT1 en plus de celle de CARM1. Ainsi, CARM1 peut-elle réduire la prolifération par un effet direct ou en inhibant PRMT1. Ce résultant souligne l'intérêt d'étudier la formation de l'hétérodimère CARM1/PRMT1. Nous avons trouvé que dans les cellules A549, CARM1 n'est pas phosphorylée sur la sérine 228, interagit avec PRMT1, méthyle les promoteurs de 2 gènes cibles (Sox2 et Nanog) et est localisée dans le noyau. Dans les cellules H1299, CARM1 est phosphorylée sur la sérine 228, n'interagit pas avec PRMT1, ne méthyle pas les promoteurs de Sox2 et Nanog et est localisée dans le cytoplasme. L'inhibition de la kinase MAP2K3 empêche la phosphorylation de CARM1 sur la sérine 228 et restaure l'interaction CARM1/PRMT1 dans les cellules H1299. En conclusion, l'invalidation de PRMT1 réduit la prolifération dans les cancers du poumon. L'invalidation de CARM1 réduit aussi la prolifération probablement par l'intermédiaire de la suppression de PRMT1. Nous suggérons que MAP2K3 est la kinase qui phosphoryle CARM1 sur la sérine 228 et que cette phosphorylation inhibe l'interaction CARM1/PRMT1. La formation de l'hétérodimère CARM1/PRMT1 pourrait constituer un moyen pour réguler l'activité de ces 2 enzymes / PRMT1 and CARM1 are 2 Protein Arginine MethylTransferases (PRMTs) implicated in cell proliferation and deregulated in cancer. Dimerisation is a conserved feature in the PRMT family. PRMT1 and CARM1 cooperate in gene regulation but CARM1/PRMT1 heterodimer is not yet characterised. We report that, PRMT1 and CARM1 are overexpressed in non-small cell lung cancer samples and in 2 lung adenocarcinoma cell lines, A549 and H1299. siPRMT1 reduce proliferation and promote differentiation. siCARM1 yield similar consequences but, as this was previously described, suppress PRMT1 expression in addition to CARM1 expression. Thus CARM1 might reduce proliferation by a direct effect or alternatively through PRMT1 suppression. This result reinforces the interest of investigating the CARM1/PRMT1 heterodimer formation. We found that in A549 cells, CARM1 is not phosphorylated at serine 228, interacts with PRMT1, methylates the promoter of 2 target genes (Sox2 and Nanog) and is localized in the nucleus. In H1299 cells, CARM1 is phosphorylated at serine 228, does not interact with PRMT1, does not methylate Sox2 and Nanog promoters and is localized in the cytoplasm. Inhibition of the kinase MAP2K3 prevents the phosphorylation of CARM1 at serine 228 and restores CARM1/PRMT1 interaction in H1299 cells. In conclusion, we propose that PRMT1 knock-down reduces proliferation in lung cancer. CARM1 knock-down reduces proliferation probably through the suppression of PRMT1. We suggest that MAP2K3 is the candidate kinase that phosphorylates CARM1 at serine 228 and that phosphorylation inhibits CARM1/PRMT1 interaction. CARM1/PRMT1 heterodimer formation might be a way of regulating the activities of these enzymes
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Impact de l’autophagie sur la radiosensibilité tumorale / Impact of autophagy on radiosensitivity of tumor cellsKo, Adrien 29 November 2013 (has links)
Les données existantes sur le rôle de l’autophagie dans la mort cellulaire radio-induite sont controversées et proviennent d’études pour lesquelles sont utilisées des drogues : l’action se produit donc de manière indirecte. Certains suggèrent que l’induction combinée de l’apoptose et de l’autophagie améliore le traitement par radiations ionisantes. D’autres indiquent que l’induction de l’autophagie favoriserait la radiorésistance des cellules tumorales et que l’utilisation d’inhibiteurs de l’autophagie augmenterait la réponse des tumeurs aux radiations ionisantes. L'autophagie, ou «self-eating», est un processus cellulaire activé par diverses conditions de stress, par lequel les cellules peuvent dégrader les protéines et les organites. Nous avons au cours de cette étude cherché à déterminer le rôle de l'autophagie dans la mort cellulaire radio-induite. Selon nos observations, l'autophagie est nécessaire pour la libération de l'ATP après un traitement par radiothérapie: en effet, le knockdown de gènes essentiels à l'autophagie limite la sécrétion d'ATP. Nous avons également constaté que des cellules déficientes pour l'autophagie traitées par radiothérapie sont incapables d’immuniser des souris contre une injection de cellules vivantes. En outre, les tumeurs déficientes pour l’autophagie répondent moins bien à un traitement par radiations ionisantes dans des souris immunocompétentes et continuent à proliférer, contrairement aux tumeurs “wild-type”. De plus, nous avons montré que les cellules déficientes pour l'autophagie ne sont pas en mesure de recruter des cellules dendritiques dans le lit tumoral. A l'inverse, l'inhibition des enzymes de dégradation de l’ATP extracellulaire accroît les concentrations d'ATP dans les tumeurs déficientes pour l'autophagie, ce qui rétablit le recrutement des cellules immunitaires dans le lit tumoral et restaure la réponse à la radiothérapie des cancers déficients pour l'autophagie. Ainsi, cette étude a montré l'importance de l'autophagie dans la réponse anti-tumorale spécifique, après traitement par radiations ionisantes. Ces résultats ouvrent de nouvelles perspectives pour comprendre la mort cellulaire radio-induite. Il reste cependant à découvrir les mécanismes moléculaires sous-jacents pour développer de nouvelles thérapies ciblées qui amélioreront l’efficacité de la radiothérapie. / Most of the available data on autophagy and tumor response to IR comes from indirect conclusions after concomitant drug-IR exposure. Some authors suggest that concurrent induction of apoptosis and autophagy enhances radiation therapy. Oppositely, others indicate that the induction of autophagy contributes to the radioresistance of tumor cells and suggest that autophagy inhibitors may be employed to increase the sensitivity radioresistant tumors cells to ionizing radiation. Autophagy literally ‘self-eating’ is a cellular process activated in response to various conditions of cellular stress, whereby cells can liberate energy resources via the degradation of proteins and organelles. In this project we aimed to determine the potential role of autophagy in IR –induced cell death. We found that autophagy is required for the release of ATP in response to radiotherapy, as we observed that the knockdown of essential autophagy-related genes abolished its secretion. Furthermore, autophagy deficient tumors growing on immunocompetent mice did not respond to radiotherapy and continued proliferating in contrast to autophagy proficient tumors. We showed that autophagy deficient cells were neither able to recruit DCs into the tumor bed. Conversely, the inhibition of extracellular ATP degrading enzymes increased extracellular ATP concentrations in autophagy deficient tumors, which reestablished the recruitment of immune cells into the tumor bed, and restored radiotherapeutic responses in autophagy-deficient cancers.Altogether, this study showed the importance of autophagy in tumor-specific immune response after radiotherapy. Thus giving new insights into the concept of IR-induced cell death. However, there is still much that is unknown about molecular mechanisms that undergo IR-induced cell death. Understand these molecular mechanisms will help to develop new targeted therapies that will improve the effectiveness of radiotherapy.
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The role of redox-active iron metabolism in the selective toxicity of pharmacological ascorbate in cancer therapySchoenfeld, Joshua David 01 May 2018 (has links)
Pharmacological ascorbate, intravenous administration of high-dose vitamin C aimed at peak plasma concentrations ~ 20 mM, has recently re-emerged, after a controversial history, as a potential anti-cancer agent in combination with standard-of-care radiation and chemotherapy-based regimens. The anti-cancer effects of ascorbate are hypothesized to involve the auto-oxidation or metal-catalyzed oxidation of ascorbate to generate H2O2, and preclinical in vitro and in vivo studies in a variety of disease sites demonstrate the efficacy of adjuvant ascorbate. Furthermore, phase I clinical trials in pancreatic and ovarian cancer have demonstrated safety and tolerability in combination with chemotherapy and preliminary results suggest therapeutic efficacy. Both preclinical in vitro and in vivo studies as well as phase I clinical trials suggest a cell-intrinsic mechanism of selective toxicity of cancer cells as compared to normal cells; however, the mechanism(s) for cancer cell-selective toxicity remain unknown.
The current study aims to investigate the preclinical therapeutic efficacy of pharmacological ascorbate in combination with standard cancer therapies in three novel disease sites: non-small cell lung cancer (NSCLC), glioblastoma multiforme (GBM), and some histological subtypes of sarcoma. In vitro experiments demonstrate cancer cell-selective susceptibility to pharmacological ascorbate as compared to normal cells of identical cell lineages. Furthermore, in vivo murine xenograft models of NSCLC, GBM, and fibrosarcoma demonstrate therapeutic efficacy of pharmacological ascorbate in combination with chemotherapy and/or radiation as compared to chemotherapy and/or radiation alone without any additional therapeutic toxicity. Additionally, a phase I clinical trial in GBM subjects demonstrates the safety and tolerability of ascorbate in combination with radiation and temozolomide therapy. Although not powered for efficacy, preliminary results suggest that ascorbate may be efficacious in these subjects (median survival 18.2 months vs. 14.6 months in historical controls), and, importantly, that ascorbate therapy may be independent of MGMT promoter methylation status (median survival 23.0 months vs. 12.7 months in historical controls with absent MGMT promoter methylation). Preliminary results from a phase II clinical trial of ascorbate in combination with carboplatin/paclitaxel chemotherapy in advanced stage NSCLC subjects also demonstrate promising preliminary results related to efficacy (objective response rate (ORR) 29% and disease control rate (DCR) 93% vs. historical control ORR 15-19% and DCR 40%).
In addition to demonstrating the potential efficacy of pharmacological ascorbate in combination with standard anti-cancer therapies, this work demonstrates that the selective toxicity of ascorbate may be mediated by perturbations in cancer cell oxidative metabolism. Increased mitochondrial-derived O2- and H2O2 disrupts cellular iron metabolism, resulting in increased iron uptake via Transferrin Receptor and a larger intracellular labile iron pool. The larger pool of labile iron in cancer cells underlies the selective sensitivity of cancer cells to ascorbate toxicity through pro-oxidant chemistry with ascorbate-produced H2O2. This mechanism is further supported by the finding of increased levels of O2- and labile iron in patient lobectomy-derived NSCLC tissue as compared to adjacent normal fresh frozen tissue. Together, these studies demonstrate the feasibility, selective toxicity, tolerability, and potential efficacy of pharmacological ascorbate in NSCLC, GBM, and sarcoma therapy and propose that further investigations of tumor and systemic iron metabolism are required to determine if these alterations can be exploited to enhance therapeutic efficacy or serve as therapeutic biomarkers.
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The Role of KRAS in Mechanosensing in Non-Small Cell Lung CancerPowell, Krista M 01 January 2019 (has links)
Lung cancer is the number one cause of cancer related death worldwide, with more than 1.6 million fatalities each year. Non-small cell lung cancer (NSCLC) accounts for 80-85% of all lung cancers, with KRAS being one of the most prevalent oncogenic driver mutations. Therapeutic approaches for KRAS-mutated NSCLC have been extensively explored due to the US National Cancer Institute RAS Initiative, but methods of directly targeting KRAS or downstream effectors, such as MEK, still have poor results. Previous reports have shown that KRAS-mutated NSCLC activate distinct receptor tyrosine kinases (RTKs) depending on the epithelial or mesenchymal state. Epithelial-to-mesenchymal transition (EMT) is known to play a role in the metastasis and poor prognosis of cancer, and is induced by extracellular matrix (ECM) stiffness. Hallmarks of EMT include loss of E-Cadherin and increase in Vimentin. This research investigates the role of KRAS in EMT transition due to increased ECM stiffness in KRAS mutant NSCLC, and how this affects the efficacy of KRAS and MEK inhibition. To understand how KRAS mutations in NSCLC play a role in this stiffness induced EMT, experiments were performed to detect the gene and protein expression of EMT markers, as well as possible sources of mechanosensing, including primary cilia and receptor tyrosine kinases. We hypothesized that KRAS plays a role in activation of mechanosensors and directly correlates to EMT induced by increased mechanical forces. Results show when KRAS was inhibited and there was increased mechanical forces, either from stretch or substrate stiffness, there was a decreased activation of mechanosensors. KRAS inhibition also prevented the cells from undergoing stiffness-induced EMT. This supports our hypothesis that KRAS plays a key role in ECM stiffness induced EMT. Future studies include examining the mechanism behind this phenomenon and in vivo studies.
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Surrogate endpoints of survival in metastatic carcinomaNordman, Ina IC, Clinical School - St Vincent's Hospital, Faculty of Medicine, UNSW January 2008 (has links)
In most randomised controlled trials (RCTs), a large number of patients need to be followed over many years, for the clinical benefit of the drug to be accurately quantified (1). Using an early proxy, or a surrogate endpoint, in place of the direct endpoint of overall survival (OS) could theoretically shorten the duration of RCTs and minimise the exposure of patients to ineffective or toxic treatments (2, 3). This thesis examined the relationship between surrogate endpoints and OS in metastatic colorectal cancer (CRC), advanced non-small cell lung cancer (NSCLC) and metastatic breast cancer (MBC). A review of the literature identified 144 RCTs in metastatic CRC, 189 in advanced NSCLC and 133 in MBC. The publications were generally of poor quality with incomplete reporting on many key variables, making comparisons between studies difficult. The introduction of the CONSORT statement was associated with improvements in the quality of reporting. For CRC (337 arms), NSCLC (429 arms) and MBC (290 arms) there were strong relationships between OS and progression free survival (PFS), time to progression (TTP), disease control rate (DCR), response rate (RR) and partial response (PR). Correlation was also demonstrated between OS and complete response (CR) in CRC and duration of response (DOR) in MBC. However, while strong relationships were found, the proportion of variance explained by the models was small. Prediction bands constructed to determine the surrogate threshold effect size indicated that large improvements in the surrogate endpoints were needed to predict overall survival gains. PFS and TTP showed the most promise as surrogates. The gain in PFS and TTP required to predict a significant gain in overall survival was between 1.2 and 7.0 months and 1.8 and 7.7 months respectively, depending on trial size and tumour type. DCR was a better potential predictor of OS than RR. The results of this study could be used to design future clinical trials with particular reference to the selection of surrogate endpoint and trial size.
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Μελέτη της έκφρασης του πρωτεϊνικού συμπλέγματος ΙLK-PINCH-Parvin (IPP) και της πρωτεΐνης RSU1 στο μη-μικροκυτταρικό καρκίνωμα του πνεύμονα στον άνθρωποΝίκου, Σοφία 22 May 2015 (has links)
Το ετεροτριμερές πρωτεϊνικό σύμπλεγμα IPP (ILK-PINCH-Parvin) εντοπίζεται στις εστιακές συνδέσεις και ρυθμίζει την σηματοδότηση από την εξωκυττάρια ουσία μέσω ιντεγκρινών και αυξητικών παραγόντων, αλληλεπιδρώντας με τον κυτταροσκελετό ακτίνης και με ποικίλες σηματοδοτικές οδούς. Οι πρωτεΐνες του συμπλεγματος IPP ελέγχουν σημαντικές κυτταρικές λειτουργίες όπως ο πολλαπλασιασμός, η επιβίωση, η κυτταρική κίνηση-μετανάστευση και ενέχονται σημαντικά στην καρκινογένεση (Legate et al., 2006). Συγκεκριμένα η πρωτεΐνη ILK (integrin-linked kinase) έχει συσχετιστεί με την εξέλιξη-προαγωγή του όγκου και δυσμενή πρόγνωση στο μη μικροκυτταρικό καρκίνωμα του πνεύμονα (Ζhao et al., 2013). Η πρωτεΐνη Ras supressor protein 1 (Rsu-1), γνωστή για την ογκοκατασταλτική της δράση και την συμμετοχή της στη σηματοδοτική οδό του ογκογονιδίου Ras, πρόσφατα βρέθηκε οτι αλληλεπιδρά με την πρωτεΐνη PINCH του ΙPP συμπλέγματος και μέσω αυτής της αλληλεπίδρασης ρυθμίζει διεργασίες όπως η κυτταρική μετανάστευση και διήθηση(Gonzalez-Nieves et al., 2013). Σκοπός της παρούσας μελέτης είναι η διερεύνηση του ρόλου του IPP συμπλέγματος και της πρωτεΐνης Rsu-1 στο μη μικροκυτταρικό καρκίνωμα του πνεύμονα στον άνθρωπο καθώς και της συμμετοχής του ΙPP συμπλόκου στην σηματοδότηση από το ογκογονιδίο Ras. Για το σκοπό αυτό μελετάται η πρωτεϊνική έκφραση των ILK, PINCH, α-Parvin, β- Parvin και Rsu-1 1) σε ιστικά δείγματα μη-μικροκυτταρικού καρκινώματος του πνεύμονα σε σχέση με κλινικοπαθολογοανατομικές παραμέτρους της νόσου και 2) σε καρκινικές κυτταρικές σειρές με διαφορετικά επίπεδα ενεργοποίησης της Ras σηματοδότησης. Για τα στοιχεία του ΙΡΡ συμπλέγματος παρατηρήθηκε αυξημένη ανοσοϊστοχημική έκφραση ενώ για την πρωτεΐνη Rsu1 βρέθηκε μειωμένη στα μη μικροκυτταρικά καρκινώματα του πνεύμονα σε σχέση με το μη νεοπλασματικό παρέγχυμα του πνεύμονα. Η έκφραση των ILK και PARVA ήταν σημαντικά υψηλότερη στα χαμηλής διαφοροποίησης νεοπλάσματα και σε όγκους προχωρημένου pT αντίστοιχα. Η έκφραση της πρωτεΐνης PINCH σχετίστηκε στατιστικώς σημαντικά με την παρουσία λεμφαδενικών μεταστάσεων. Δεν παρατηρήθηκε εξάρτηση της πρωτεϊνικής έκφρασης των Rsu-1 και PINCH από τη σηματοδοτική οδό Ras. Τα αποτελέσματα υποστηρίζουν ότι η υπερέκφραση των στοιχείων του ΙΡΡ συμπλέγματος και η μειωμένη έκφραση του Rsu1 ενέχονται στην παθογένεια του καρκίνου του πνεύμονα. / The integrin-linked kinase (ILK)-PINCH-parvin (IPP) complex at integrin adhesion sites is a critical regulator of cell migration, invasion and metastasis. Deregulation of the IPP complex has been implicated in human carcinogenesis (Legate et al, 2006). Recent observations suggest that RSU-1, a protein first identified as a suppressor of v-Ras mediated cell transformation is a PINCH-binding partner that regulates PINCH mediated adhesion and migration (Gonzalez-Nieves et al., 2013). This study aims to evaluate the expression of the IPP complex and RSU-1 in human non-small cell lung carcinomas (NSCLC). Protein expression of ILK, PINCH, alpha-parvin, beta-parvin and RSU-1 in relation to clinicopathological parameters was evaluated by immunohistochemistry in 82 FFPE tissue samples of non-small cell lung cancer (NSCLC). All components of the IPP complex were overexpressed while RSU-1 was downregulated in lung cancer cells compared to non-neoplastic lung parenchyma. ILK and alpha-parvin expression was significantly higher in high grade (p=0.002) and high pT (p=0.047) tumors respectively. Expression of PINCH associated significantly with lymph node metastasis (p=0.045). Our results suggest that overexpression of the IPP complex and downregulation of RSU-1 may be implicated in lung carcinogenesis.
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Biomarkers in non-small cell lung carcinoma : methodological aspects and influence of gender, histology and smoking habits on estrogen receptor and epidermal growth factor family receptor signallingKarlsson, Christina January 2011 (has links)
Non-small cell lung carcinoma is a leading cause of cancer mortality worldwide. There are gender and smoking associated differences both in tumour types and clinical outcome. Squamous cell carcinomas (SCC) are more frequent among smoking men while females develop adenocarcinomas (ADCA). NSCLC among never smokers are mainly ADCA, and occurs mostly in females. The present thesis elucidates the role of estrogen receptor (ER) and epidermal growth factor receptor family (EGFR/HER2-4) in NSCLC in the perspective of gender and histology as well as the influence of smoking on those biomarkers. A recently developed technique, tissue micro array (TMA), was employed.The question of how much of a tumour tissue that needed to be included in a TMA for biomarker analysis was analyzed by a statistical approach. Data indicates a sample size of three cylinders of tumour tissue with a diameter of 0.6 mm each as being appropriate and cost-effective. In order to optimally use the up to thousands of different tumour samples within a TMA, it would be optimal to serially cut and store slides before performing in situ detection of proteins and nucleic acids. Applying up to date methodology, and by evaluation with image analysis, data are presented that shows that such handling of TMA slides would be possible without any loss of biomarker information. ERα is more frequently observed in ADCA and in females and a local estradiol synthesis is supported by the presence of aromatase. ERβ is identified as a positive prognostic marker in ADCA. Smoking is associated to increased levels of ERβ mRNA. EGFR over expression is associated with a ligand. Independent phosporylation of ERα. HER-4 intracellular domain may also act as a co-activator to ERα in ADCA, especially among neversmokers. The question of ER and EGFR family signalling crosstalk as a potential target for combined targeted therapy is raised.
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Surrogate endpoints of survival in metastatic carcinomaNordman, Ina IC, Clinical School - St Vincent's Hospital, Faculty of Medicine, UNSW January 2008 (has links)
In most randomised controlled trials (RCTs), a large number of patients need to be followed over many years, for the clinical benefit of the drug to be accurately quantified (1). Using an early proxy, or a surrogate endpoint, in place of the direct endpoint of overall survival (OS) could theoretically shorten the duration of RCTs and minimise the exposure of patients to ineffective or toxic treatments (2, 3). This thesis examined the relationship between surrogate endpoints and OS in metastatic colorectal cancer (CRC), advanced non-small cell lung cancer (NSCLC) and metastatic breast cancer (MBC). A review of the literature identified 144 RCTs in metastatic CRC, 189 in advanced NSCLC and 133 in MBC. The publications were generally of poor quality with incomplete reporting on many key variables, making comparisons between studies difficult. The introduction of the CONSORT statement was associated with improvements in the quality of reporting. For CRC (337 arms), NSCLC (429 arms) and MBC (290 arms) there were strong relationships between OS and progression free survival (PFS), time to progression (TTP), disease control rate (DCR), response rate (RR) and partial response (PR). Correlation was also demonstrated between OS and complete response (CR) in CRC and duration of response (DOR) in MBC. However, while strong relationships were found, the proportion of variance explained by the models was small. Prediction bands constructed to determine the surrogate threshold effect size indicated that large improvements in the surrogate endpoints were needed to predict overall survival gains. PFS and TTP showed the most promise as surrogates. The gain in PFS and TTP required to predict a significant gain in overall survival was between 1.2 and 7.0 months and 1.8 and 7.7 months respectively, depending on trial size and tumour type. DCR was a better potential predictor of OS than RR. The results of this study could be used to design future clinical trials with particular reference to the selection of surrogate endpoint and trial size.
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Initial characterization and determination of the molecular mechanism(s) that control transcription of the human PKC epsilon gene in lung cancer cellsAkinyi, Linnet. January 2004 (has links)
Thesis (M.S.)--University of Florida, 2004. / Typescript. Title from title page of source document. Document formatted into pages; contains 52 pages. Includes Vita. Includes bibliographical references.
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Investigation of the dose dependence of the induction of cellular senescence in a small cell lung cancer cell line : implementation of R.C.R. (repairable-conditionally repairable) model / Διερεύνηση της εξάρτησης της δόσης για την επαγωγή κυτταρικής γήρανσης σε μικροκυτταρικό καρκίνο του πνεύμονα : εφαρμογή του R.C.R. (repairable-conditionally repairable) μοντέλουΜακρής, Νικόλαος 28 September 2010 (has links)
The purpose of this work is to make an attempt to quantify and model various types of cell death for a small cell lung cancer (SCLC) cell line (U1690) after exposure to a 137Cs source and as well as to compare cell survival models, the Linear-Quadratic (LQ) and Repairable Conditionally – Repairable model (RCR).
This study is based on four different experiments that were taken place at Cancer Centrum Karolinska (CCK). A human small cell lung cancer (SCLC) cell line after the exposure to a 137Cs source was used for the extraction of the clonogenic cell survival curve. Additionally for the determination and quantification of various modes of cell death the method of fluorescence staining was implemented, where we categorized the cell death based on morphological characteristics. As next with the flow cytometry analysis we measured the properties of individual particles and more specifically the percentage of cells in each phase of the cell cycle. The quantification of senescent cells was performed by staining the samples with senescence associated-β-gal solution and then scoring as senescent cells those that had incorporated the substance. These data were introduced into a maximum likelihood fitting to calculate the best estimates of the parameters used by the model in section 2.8. In this model we sorted the modes of cell death into three categories: apoptotic, senescent and other types of cell death (nec/apop, necrotic, micronuclei, giant).
In regards to the clonogenic cell survival assay the RCR model shows a ρ2 value that is equal to 6.10 whereas for the LQ model is 9.61. Moreover from the fluorescence microscopy and senescence assay we observed an initial increase of the probability of three different categories of cell death on day 2 and at higher doses there was saturation. On day 7 a significant induction of apoptosis in a dose and time dependent manner was evident whereas senescence was slightly increased in response to dose but not to time. As for the „other types of cell death‟ category on day 7 showed a higher probability that the one on day 2 and as well as a prominent dose dependence. A dose dependent accumulation of cells in the G2/M phase of the cell cycle was induced by photons on day 2. The accumulation in the G2/M phase on day 2 is released on day 7 and simultaneously an increase of the probability of apoptosis with time was observed.
The RCR model is fitted better to the experimental data rather than the LQ model.
On day 2 there is a slight increase of the apoptotic and senescent probability with dose. On the other hand on day 7 the shape of the curve of apoptosis differs and we observe a sigmoidal increase with dose. At both time points the mathematical model fit the data reasonable well. Due to the fact that the clonogenic survival doesn‟t coincide with the one extracted from the fluorescence microscopy, a more accurate way of quantification of cell death need to be used (e.g. CVTL). / Ο σκοπός αυτής της μελέτης είναι η ποσοτικοποίηση και μοντελοποίηση διαφόρων τύπων κυτταρικού θανάτου μικροκυτταρικού καρκίνου πνεύμονα μετά από ακτινοβόληση με πηγή Καισίου (137Cs) καθώς και η σύγκριση μοντέλων κυτταρικής επιβίωσης, Linear-Quadratic (LQ) και Repairable Conditionally-Repairable.
Η μελέτη είναι βασισμένη σε τέσσερα ξεχωριστά πειράματα τα οποία πραγματοποιήθηκαν στο Cancer Centrum Karolinska (CCK). Ανθρώπινος μικροκυτταρικός καρκίνος πνεύμονα χρησιμοποιήθηκε για τον υπολογισμό της καμπύλης κυτταρικής επιβίωσης μετά από ακτινοβόληση με πηγή Καισίου (137Cs). Επιπρόσθετα για τον προσδιορισμό και την μοντελοποίηση των διαφόρων ειδών θανάτου εφαρμόστηκε η μέθοδος της φθορίζουσας μικροσκοπίας, με την βοήθεια της οποίας κατηγοριοποιήθηκε ο κυτταρικός θάνατος βάσει μορφολογικών χαρακτηριστικών. Στη συνέχεια μέσω της κυτταρομετρίας ροής υπολογίσαμε τις ιδιότητες μεμονομένων σωματιδίων (κυττάρων) και πιο συγκεκριμένα το ποσοστό των κυττάρων σε κάθε φάση του κυτταρικού κύκλου. Η ποσοτικοποίηση των κυττάρων γήρανσης πραγματοποιήθηκε μέσω της χρώσης των δειγμάτων με διάλυμα συσχετιζόμενο με την γήρανση και μετά καταγράφηκαν σαν κύτταρα γήρανσης αυτά τα οποία είχαν ενσωματώσει την ουσία. Τα δεδομένα χρησιμοποιήθηκαν σε μια διαδικασία προσαρμογής μέγιστης πιθανοφάνειας (maximum likelihood fitting) ώστε να υπολογιστούν οι βέλτιστες τιμές των παράμετρων που χρησιμοποιούνται από το μοντέλο στην ενότητα 2.8. Στο παρόν μοντέλο έχουμε ταξινομήσει τον κυτταρικό θάνατο σε τρεις κατηγορίες: απόπτωση, γήρανση και άλλοι τύποι κυτταρικού θανάτου (νεκ/αποπ, νέκρωση, μικροπυρήνες και γίγαντες).
Όσον αφορά την κλωνογόνο κυτταρική επιβίωση το RCR μοντέλο παρουσιάζει τιμή χ2 ίση με 6.10 ενώ για το LQ μοντέλο ίση με 9.61. Επιπλέον μέσω της φθορίζουσας μικροσκοπίας και της χημικής δοκιμής για την κυτταρική γήρανση παρατηρήσαμε την 2η μέρα αρχική αύξηση της πιθανότητας και για τις τρεις κατηγορίες κυτταρικού θανάτου ενώ εμφανής ήταν ο κορεσμός στις υψηλότερες δόσεις. Την 7η μέρα παρουσιάστηκε επαγωγή της απόπτωσης με δοσο/χρονο-εξαρτώμενο τρόπο καθώς και το ότι η γήρανση των κυττάρων αυξήθηκε ελάχιστα με την δόση αλλά όχι με τον χρόνο. Σχετικά με την τρίτη κατηγορία ‘άλλοι τύποι κυτταρικού θανάτου’ την 7η μέρα ανέδειξε υψηλότερη πιθανότητα συγκριτικά με την 2η μέρα καθώς και μια έκδηλη εξάρτηση με την δόση. Κατά την ανάλυση του κυτταρικού κύκλου για την 2η μέρα αναδεικνύεται συσσώρευση των κυττάρων με δοσοεξαρτώμενο τρόπο στην φάση G2/M του κυτταρικού κύκλου. Η συσσώρευση των κυττάρων στην φάση G2/M την 2η μέρα απελευθερώθηκε την 7η μέρα με ταυτόχρονη αύξηση της πιθανότητας για απόπτωση συναρτήσει της δόσης.
Βρέθηκε ότι το RCR μοντέλο προσαρμόζεται καλύτερα στα πειραματικά δεδομένα σε σχέση με το LQ μοντέλο. Την 2η μέρα παρατηρήθηκε πολύ μικρή αύξηση της πιθανότητας για απόπτωση και γήρανση συναρτήσει της δόσης. Ενώ την 7η μέρα η μορφή της καμπύλης της απόπτωσης διαφοροποιήθηκε και παρατηρήθηκε σιγμοειδής αύξηση με την δόση. Το μαθηματικό μοντέλο προσαρμόζεται αρκετά καλά στα δεδομένα για την 2η και 7η μέρα. Ένας πιο ακριβής τρόπος υπολογισμού της ποσοτικοποίησης του κυτταρικού θανάτου θα πρέπει να χρησιμοποιηθεί εξ’αιτίας του γεγονότος ότι η καμπύλη της κλωνογόνου επιβίωσης δεν συμπίπτει με αυτή που παράχθηκε από την μικροσκοπία φθορισμού.
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