Global ETD Search

71	Fliposomes with a pH-sensitive conformational switch for anticancer drug delivery against triple negative breast cancer Lu, Yifan 01 January 2019 (has links) Cancer is the second leading cause of death in the US and worldwide, accounting for 16% of deaths worldwide in 2015. Of more than 100 types of cancers affecting humans, breast cancer is the most common cancer among women and is the second leading cause of death in women. Triple negative breast cancer (TNBC) is a subtype of breast carcinomas defined by the lack of the expression of estrogen receptor (ER), progesterone receptor (PR) and human epidermal growth factor receptor (HER2 /neu). The prognosis and survival of TNBC patients remains the poor due to the lack of effective targeted therapy. Nanotechnology-based drug delivery systems, such as liposomes, are widely investigated to enhance anticancer efficacy by concentrating the drug molecules in the tissues of interest and by altering the pharmacokinetic profile. Taking advantage of the pH gradient in the tumor microenvironment, pH-triggered release is a promising strategy to enhance the anticancer efficacy of drug delivery systems against TNBC. Previously, a strategy in our lab has been developed to render saturated and pegylated liposomes pH-sensitive: protonation-induced conformational switch of lipid tails, using trans-2-aminocyclohexanol lipids (TACH, flipids) as a molecular trigger. Based on previous work in our lab, pH-sensitive liposomes (fliposomes) composed of C-16 flipids with amine group of morpholine (MOR) and azetidine (AZE) demonstrated optimized triggered release in response to the tumor’s low pH microenvironment. In this study, different preparation methods were developed and optimized to produce viable fliposomes with high doxorubicin (DOX) encapsulation efficiency. In vitro release assays were established and validated to accurately reflect pH-triggered release of fliposomes. The physicochemical properties of DOX-loaded fliposomes were characterized and their pH-dependent release were investigated. Factors influencing the desirable attributes of liposomes, such as size, pH-sensitivity, stability and drug-loading capacity were explored. Based on these characterizations, central composite design (CCD) was utilized to optimize the formulation of fliposome with two critical factors, flipids and cholesterol. Cell viability assays on traditional monolayer and innovative three-dimensional multicellular spheroids (3D MCS) of TNBC cell lines were conducted to evaluate the anticancer efficacy of the resultant fliposomes in vitro. The constructed 3D MCS carried heterogeneously distributed live and apoptotic cells, as well as acidity inside the 3D MCS based on confocal microscopic imaging studies. The distribution and penetration of DOX-loaded fliposomes into 3D MCS was imaged by confocal microscopy in comparison to DOX-loaded non pH-sensitive liposomes and free DOX. As a result, fliposome manifested superior anticancer activity against TNBC 3D MCS by efficient penetration into 3D MCS, followed by tuning up the release rate of the anticancer agent DOX. A TNBC orthotopic xenograft model was established by transplanting TNBC into the murine mammalian fat pad, which maintains the organ-specific tumor microenvironment of the original organ . A pilot pharmacokinetic study was conducted in order to correlate the pH response and stability properties with the in vivo stability of the optimized AZE-C16 fliposome. The antitumor efficacy was comparable between free DOX and DOX-loaded stealth liposome with tumor volumes of ~ 80-90% of the control treatment 32 days post first dose. In contrast, the DOX-loaded fliposome, especially MOR-C16 fliposome, exhibited a significantly higher antitumor efficacy and delayed progression compared to free DOX and stealth liposome treatments. Taken together, DOX-loaded fliposomes were successfully prepared and optimized for in vivo application. They were able to achieve superior activity against TNBC in vitro and in vivo, facilitated by enhanced release of the anticancer drug DOX after penetration inside TNBC tumor. 3D muticellular spheroids liposome orthotopic xenograft model pH sensitive physical targeting triple negative breast cancer Pharmaceutical sciences Medicine and Health Sciences Pharmacy and Pharmaceutical Sciences
72	Development of Microfluidic 3D Cell Culture with a Nanocellulose-Based Scaffold for Spheroid Formation as a Potential Tool for Drug Screening / Utveckling av mikrofluidisk 3D-cellkultur med en nanocellulosabaserad ställning för sfäroidbildning som ett potentiellt verktyg för läkemedelsscreening Payande, Sara January 2022 (has links) Abstract Lack of clinical relevance is assumed to be the main reason behind the high failure rate of medical drugs in the very initial phases of clinical trials. Clinical relevance is difficult to achieve with current tools as they lack the biological and physiological cues found in vivo. Microfluidics, the knowledge of fluid manipulation in small channels, has proven to be a promising science to bridge the gap between the current in vitro and the real in vivo features. In this thesis, a scaffold for the growth of spheroids inside a microfluidic device for potential drug screening was developed. Firstly, the surface of a microfluidic device was coated with the polymers cellulose nanofibrils, polyallylamine hydrochloride, and polyethyleneimine using the Layer-by-Layer technique to achieve an even surface coverage. Here, different chip designs, polymer concentrations, and pressure directions were tested. It was decided that using a negative pressure direction with a polymer concentration of 50 mg/L in a chip design with micropillars was optimal and these conditions were then used for testing the spheroid formation. Secondly, spheroids were grown inside the microfluidic channels using different coatings: the previously mentioned polymer buildup, one non-coated channel, and one coated with attachment factor proteins. These three surface conditions were compared and it was shown that the polymer-based surface cover was indeed superior as a scaffold as it encouraged and promoted cell growth in the spheroid formation of liver cancer cells from the HepG2 cell line. Further development of this cellulose nanofibrils-coated microfluidic device displays a promising future for functioning as an in vitro 3D cell culture model that better mimics the close-to-cell microenvironments by imitating cell proliferation, cell-to-cell, and cell-to-extracellular matrix interactions. / Sammanfattning Den främsta orsaken bakom den höga antal misslyckade kliniska läkemedelsprövningar i de initiala faserna antas bero på brist på klinisk relevans. Klinisk relevans är mycket svår att uppnå med dagens verktyg då de saknar de biologiska och fysiologiska förhållandena som återfinns in vivo. Mikrofluidik, kunskapen om vätskemanipulation i små kanaler har visat sig vara lovande vetenskap för att överbrygga klyftan mellan de nuvarande in vitro och de faktiska in vivo funktionerna. I detta arbete utvecklades en matris för sfäroider att växa på inuti en mikrofluidisk kanal för att potentiellt användas till läkemedelsscreening. Först användes Layer-by-Layer teknologi för att jämnt betäckta ytan inuti en mikrofluidisk kanal med polymererna cellulosananofibriller, polyallylamin hydroklorid samt polyetylenimin. Här testades olika designer på mikrofluidiska chip, polymerkoncentrationer samt tryckriktningar. Utifrån detta gick det att fastställa att negativt tryck med en polymerkoncentration på 50 mg/L i en chippdesign med mikropelare var optimal för en jämn ytbetäckning och dessa förhållanden användes sedan för att pröva sfäroidernas tillväxt. Härnäst testades därmed sfäroidernas tillväxt inuti mikrofluidiska kanaler under tre olika förhållanden: ett med polymerbetäckningen, ett utan betäckning och ett då ytan var täckt med proteiner med fästfaktorer. Dessa tre förhållanden jämfördes sedan med varandra och således gick det att konstatera att den polymerbaseradebetäckningen fungerade överlägset som matris för tillväxt av HepG2 lever cancer cell sfäroider eftersom den tycks främja dess tillväxt och bildning. Det pekar mot att ytterligare utveckling av denna cellulostäckta yta skulle innebära en lovande modell för in vitro 3D cellodling som bättre efterliknar den cellulära mikromiljön genom att imitera cellproliferation, interaktioner celler emellan samt mellan cell och extracellulär matrisen. 3D cell culture Scaffold Microfluidics Layer-by-Layer Cellulose Nanofibrils Spheroids HepG2 3D cellodling Matris Mikrofluidik Layer-by-Layer Cellulosa Nanofibriller Sfäroider HepG2 Medical Engineering Medicinteknik
73	Quiescent cancer cells : Three-dimensional cell models for evaluation of new therapeutics / Vilande cancerceller : Tredimensionella cellmodeller för utvärdering av nya cancerläkemedel Ek, Frida January 2022 (has links) Inadequate metabolic conditions in solid tumors lead to the formation of quiescent cancer cells that are suspended in a transient cell cycle arrest. When conditions change, quiescent cancer cells can re-enter the cell cycle and cause recurrence. Drug screening efforts have revealed mitochondrial oxidative phosphorylation as a unique metabolic dependency in quiescent cancer cells. The anthelmintic drug nitazoxanide is an inhibitor of oxidative phosphorylation and preferentially active against quiescent cancer cells in multicellular tumor spheroids. In this thesis, we employed current and developed new models of quiescent cancer cells and applied live cell imaging for improved preclinical evaluation of cancer drugs in hepatocellular and colorectal carcinoma cell lines. As part of this work, a new assay to measure mitochondrial membrane potential in three-dimensional cell models was developed, an application of the JC-1 assay, and we demonstrated that the preferential activity against quiescent cancer cells of nitazoxanide is shared by two kinase inhibitors: sorafenib and regorafenib. The sensitivity of quiescent cancer cells to nitazoxanide, sorafenib, and regorafenib correlated with the disruption of the mitochondrial membrane potential. Nitazoxanide and sorafenib, in combination, caused an additive decrease in viability, mitochondrial membrane potential, and colony regrowth capacity. Furthermore, we developed a quiescent hollow fiber assay and implemented an improved analysis using live cell imaging and adenosine triphosphate analysis. Hypoxia and cancer cell quiescence were enriched in hollow fiber macrocapsules over time, and the culture conditions affected nitazoxanide sensitivity. Additionally, we used basement membrane extract gel to support cell growth in hollow fiber macrocapsules and implanted macrocapsules in mice. We observed that the in vivo environment was favorable to cell growth. Through this characterization of the quiescent hollow fiber assay, we were able to outline important paths for future research. Cancer cancer cell quiescence dormancy three-dimensional multicellular tumor spheroids model development cancer pharmacology mitochondria OXPHOS colorectal carcinoma hepatocellular carcinoma Cancer and Oncology Cancer och onkologi
74	Microarrays for the scalable production of metabolically relevant tumour spheroids: a tool for modulating chemosensitivity traits Hardelauf, Heike, Frimat, Jean-Philippe, Stewart, Joanna D., Schormann, Wiebke, Chiang, Ya-Yu, Lampen, Peter, Franzke, Joachim, Hengstler, Jan G., Cadenas, Cristina, Kunz-Schughart, Leoni A., West, Jonathan 02 April 2014 (has links) (PDF) We report the use of thin film poly(dimethylsiloxane) (PDMS) prints for the arrayed mass production of highly uniform 3-D human HT29 colon carcinoma spheroids. The spheroids have an organotypic density and, as determined by 3-axis imaging, were genuinely spherical. Critically, the array density impacts growth kinetics and can be tuned to produce spheroids ranging in diameter from 200 to 550 µm. The diffusive limit of competition for media occurred with a pitch of ≥1250 µm and was used for the optimal array-based culture of large, viable spheroids. During sustained culture mass transfer gradients surrounding and within the spheroids are established, and lead to growth cessation, altered expression patterns and the formation of a central secondary necrosis. These features reflect the microenvironment of avascularised tumours, making the array format well suited for the production of model tumours with defined sizes and thus defined spatio-temporal pathophysiological gradients. Experimental windows, before and after the onset of hypoxia, were identified and used with an enzyme activity-based viability assay to measure the chemosensitivity towards irinotecan. Compared to monolayer cultures, a marked reduction in the drug efficacy towards the different spheroid culture states was observed and attributed to cell cycle arrest, the 3-D character, scale and/or hypoxia factors. In summary, spheroid culture using the array format has great potential to support drug discovery and development, as well as tumour biology research. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. Saure Phosphatase Untersuchung Zellkultursystem Hepatozyt Sphäroide Topoisomerase Zellviabilität Wachstum Mikrofabrikation Differenzierung Camptothecin acid-phosphatase assay culture-system hepatocyte spheroids topoisomerase-i cell viability growth microfabrication differentiation camptothecin generation ddc:570 ddc:012 rvk:VA 1120
75	Analyse mathématique et calibration de modèles de croissance tumorale / Mathematical analysis and model calibration for tumor growth models Michel, Thomas 18 November 2016 (has links) Cette thèse présente des travaux sur l’étude et la calibration de modèles d’équations aux dérivées partielles pour la croissance tumorale. La première partie porte sur l’analyse d’un modèle de croissance tumorale pour le cas de métastases au foie de tumeurs gastro-intestinales (GIST). Le modèle est un système d’équations aux dérivées partielles couplées et prend en compte plusieurs traitements dont un traitement anti-angiogénique. Le modèle permet de reproduire des données cliniques. La première partie de ce travail concerne la preuve d’existence/unicité de la solution du modèle. La seconde partie du travail porte sur l’étude du comportement asymptotique de la solution du modèle lorsqu’un paramètre du modèle, décrivant la capacité de la tumeur à évacuer la nécrose, converge vers 0. La seconde partie de la thèse concerne le développement d’un modèle de croissance pour des sphéroïdes tumoraux ainsi que sur la calibration de ce modèle à partir de données expérimentales in vitro. L’objectif est de développer un modèle permettant de reproduire quantitativement la distribution des cellules proliférantes à l’intérieur d’un sphéroïde en fonction de la concentration en nutriments. Le travail de modélisation et de calibration du modèle a été effectué à partir de données expérimentales permettant d’obtenir la répartition spatiale de cellules proliférantes dans un sphéroïde tumoral. / In this thesis, we present several works on the study and the calibration of partial differential equations models for tumor growth. The first part is devoted to the mathematical study of a model for tumor drug resistance in the case of gastro-intestinal tumor (GIST) metastases to the liver. The model we study consists in a coupled partial differential equations system and takes several treatments into account, such as a anti-angiogenic treatment. This model is able to reproduce clinical data. In a first part, we present the proof of the existence/uniqueness of the solution to this model. Then, in a second part, we study the asymptotic behavior of the solution when a parameter of this model, describing the capacity of the tumor to evacuate the necrosis, goes to 0. In the second part of this thesis, we present the development of model for tumor spheroids growth. We also present the model calibration thanks to in vitro experimental data. The main objective of this work is to reproduce quantitatively the proliferative cell distribution in a spheroid, as a function of the concentration of nutrients. The modeling and calibration of this model have been done thanks to experimental data consisting of proliferative cells distribution in a spheroid. Modélisation mathématique Traitement de données expérimentales Calibration de modèle Sphéroïdes tumoraux Équations aux dérivées partielles Croissance tumorale Mathematical modeling Experimental data processing Model calibration Tumor spheroids Partial differential equations Tumor growth
76	Physiopathologie de cellules souches cancéreuses isolées de glioblastomes primitifs et évaluation pré-clinique de molécules "tête de série" par une approche de biologie et de chimie médicinale / Physiopathology of cancer stern cells isolated from primary glioblastoma and pre-clinical evaluation of lead molecules by an approach of biology and medicinal chemistry Dong, Jihu 15 September 2015 (has links) Les glioblastomes sont des tumeurs primaires du cerveau les plus malignes. L’identification des cellules souches cancéreuses de glioblastome (CSGs) a transformé notre vision globale des glioblastomes en révélant une hiérarchie cellulaire au sein de ces tumeurs. Les CSGs sont douées de propriétés d’auto-renouvellement, de différenciation et peuvent entrer en quiescence. Elles sont considérées comme les cellules entretenant les tumeurs, responsables de leur dissémination et des rechutes après traitement. La découverte des CSGs a conduit à un changement de paradigme dans le développement des thérapies anticancéreuses, avec la nécessité de cibler dans le traitement non seulement les cellules de la masse tumorale, mais aussi les CSGs. Un criblage différentiel de la chimiothèque Prestwick réalisé au laboratoire a permis d’identifier le bisacodyl comme une molécule présentant une cytotoxicité spécifique sur les CSGs en quiescence.Cette thèse présente un travail sur la caractérisation des CSGs, la compréhension du mode d’action du bisacodyl, ainsi que l’évaluation de son potentiel thérapeutique sur un modèle 3D in intro et des modèles in vivo. / Glioblastomas are the most malignant primary brain tumors. The identification of glioblastoma stemcells (GSCs) has transformed our comprehension of those tumors by revealing a hierarchical organization. GSCs can self-renew, differentiate and enter into a quiescent state. They are considered as cells which fuel and as the main culprits of tumor relapse. The discovery of GSCs triggered a change in paradigm for cancer therapy. Indeed to gain in efficacy, therapies need to target, not only the cells forming the bulk of the tumor, but also GSCs particularly resistant and endowed with a high tumorigenic potential. Chemical screening of the Prestwick chemical library in our laboratory, unveiled bisacodyl with a specific activity on quiescent GSCs.This thesis presents work on the characterization of GSCs, study of the mode of action of bisacodyl on GSCs, as well as a preclinical evaluation of bisacodyl on a 3D model in vitro and animal models in vivo. Glioblastome Cellule souche cancéreuse Bisacodyl Microenvironnement tumoral Acidité tumorale Quiescence Hypoxie Tumorosphères Sphéroides Glioblastoma Cancer stem cell Bisacodyl Tumor microenvironment Tumor acidity Quiescence Hypoxia Tumorospheres Spheroids 571.6 615.7 616.99
77	Engineering the Micro-Environment Niche of Human Bone Marrow-Derived Mesenchymal Stem Cells for Enhanced Cardiac Tissue Regeneration Joshi, Jyotsna 05 December 2018 (has links) No description available. Biomedical Engineering Myocardial infarction MSC spheroids 5-azacytidine Collagen hydrogels Collagen nanofibers Wnt signaling MSC paracrine signaling TNF-alpha Human cardiomyocytes Cocultures of MSC and cardiomyocytes
78	Développement de modèles précliniques de sphéroïdes de neuroblastome en co-culture avec des cellules NK Mardhy, Mohamed Walid 08 1900 (has links) Le neuroblastome pédiatrique à haut risque est incurable malgré l’intensification des traitements. Chez le patient, les cellules de neuroblastome échappent à l’activité anticancéreuse des cellules immunitaires Natural Killer (NK). Or, lorsque cultivées in vitro en monocouche (2D), les cellules de neuroblastomes redeviennent sensibles à l’activité cytotoxique des cellules NK ce qui ne reflètent pas leur résistance dans les tumeurs in situ. Nous faisons l'hypothèse que lorsque cultivées en 3D sous forme de sphéroïdes, les cellules de neuroblastome pourraient retrouver certaines caractéristiques qui les rendraient plus représentatives des tumeurs in situ au niveau immunologique. Ainsi, un tel modèle préclinique pourrait mieux refléter la résistance aux cellules NK et servir de modèle de criblage pour la découverte de médicaments potentialisant la cytotoxicité des cellules NK. Pour répondre à cette question, nous avons développé un système de culture cellulaire 3D utilisant plusieurs lignées cellulaires de neuroblastome. À ce système, une co-culture en 3D avec une lignée de cellules Natural Killer (NK92) a été mise en place. Nous avons mis en évidence que les sphéroïdes de neuroblastome présentent des changements d’expression de certains gènes qui sont retrouvées chez les patients ainsi qu’une plus grande résistance à l’activité cytotoxique des cellules NK92 en comparaison avec les lignées en monocouche. Les co cultures de sphéroïdes ont été exposées à des inhibiteurs de protéines impliquées à différents niveaux de l’épigénome afin de découvrir des médicaments qui sensibiliseraient les cellules de neuroblastome à l’activité cytotoxique des NK92. Une différence dans la sensibilité aux médicaments entre les sphéroïdes et les cellules en 2D ainsi qu’en monoculture ou en co-culture a été observée et certains composés ont été identifiés en vue de potentialiser l’activité des cellules NK92. Ainsi, nos études ont permis de mieux comprendre les mécanismes impliqués dans la résistance des cellules du neuroblastome à l’activité cytotoxique des cellules NK dans un modèle plus représentatif de la tumeur in situ. / High-risk pediatric neuroblastoma remains incurable despite intensified treatments. In patients, neuroblastoma cells evade the anti-cancer activity of Natural Killer (NK) immune cells. However, when cultured in vitro in a monolayer (2D), neuroblastoma cells become sensitive to the cytotoxic activity of NK cells, which does not reflect their resistance in tumors in situ. We hypothesize that when cultured in 3D in the form of spheroids, neuroblastoma cells could regain certain characteristics that would make them representative of tumors in situ at the immunological level. Thus, such a preclinical model could better reflect NK cell resistance and serve as a screening model for drug discovery to discover a treatment that can potentiate NK cell cytotoxicity. To answer this question, we developed a 3D cell culture system using several neuroblastoma cell lines. To this system, a 3D coculture model with a Natural Killer (NK92) cell line was set up. We have shown that neuroblastoma spheroids develop changes in the expression of certain genes that are found in patients as well as greater resistance to NK92 cells compared to monolayer cell lines. Spheroid cocultures were exposed to inhibitors of proteins involved at different levels of the epigenome to discover drugs that would sensitize neuroblastoma cells to the cytotoxic activity of NK92. A difference in drug sensitivity between spheroids and cells in 2D as well as in monoculture or coculture was observed and some compounds were identified to potentiate the activity of NK92 cells. Thus, our studies have provided a better understanding of the mechanisms involved in the resistance of neuroblastoma cells to the cytotoxic activity of NK cells in a more representative model of the tumor in situ. tumeurs pédiatriques neuroblastome sphéroïdes culture cellulaire 3D coculture cellules Natural Killer cytotoxicité épigénétique pharmacologie criblage de composés pediatric tumor neuroblastoma spheroids 3D cell culture coculture Natural Killer cells cytotoxicity epigenetic epigenetic pharmacology drug screening
79	Optimisation du traitement du cancer du sein Triple-Négatif : développement des modèles de culture cellulaire en trois dimensions, efficacité de l'Olaparib (anti-PARP1) en combinaison avec la radiothérapie et chimiorésistance instaurée par les protéines Multi Drug Résistance / Optimization of triple-negative breast cancer treatment : development of three-dimensional cell culture models, efficacy of Olaparib (anti-PARP1) in combination with radiotherapy and chemoresistance introduced by "Multi Drug Resistance" proteins Dubois, Clémence 21 December 2018 (has links) Le cancer du sein est une maladie complexe et difficile à caractériser. Parmi les différents sous-types moléculaires, les tumeurs du sein Triple-Négatives (TN) sont particulièrement agressives et de mauvais pronostic. Elles sont caractérisées par une absence d’expression des récepteurs aux œstrogènes (ER), à la progestérone (PR), l’absence de surexpression du récepteur Human Epidermal growth factor 2 (HER2) et de fréquentes mutations sur les gènes BRCA1/2 (profil « BRCAness »). En absence de thérapies ciblées efficaces, de nombreux traitements ciblés notamment les inhibiteurs de poly-ADP-ribose polymérases (anti-PARPs) sont actuellement en cours de développement, en recherche préclinique et clinique. Basés sur le principe de létalité synthétique, les anti-PARPs ciblent les propriétés BRCAness des tumeurs TN. Dans ce contexte, ces travaux de recherche ont été orientés sur le développement d’outils diagnostics afin d’optimiser l’efficacité des anti-PARPs sur des tumeurs TN. Pour ce faire, dans un premier temps, des cultures cellulaires en 3D via la technique Liquid Overlay ainsi que des tests de cytotoxicités associés ont été développés, à partir des lignées cellulaires MDA-MB-231 et SUM1315 de phénotype TN. Ces deux modèles de sphéroïdes ont ensuite été optimisés/normalisés dans un milieu de culture synthétique intitulé OPTIPASS (BIOPASS). Dans un deuxième temps, l’efficacité d’un co-traitement combinant l’anti-PARP1 Olaparib à faibles et à fortes doses et la radiothérapie fractionnée (5x2 Gy) a été modélisée sur les deux lignées MDA-MB-231 et SUM1315, en conditions 2D et 3D. Ces expériences ont clairement mis en évidence un effet potentialisateur de l’Olaparib sur la radiothérapie (i) en présence de faibles doses de cet anti-PARP (5 µM ou inférieur) (ii) à long terme et (iii) en présence d’un fractionnement maximum (5x2 Gy). De plus, les lignées tumorales TN étudiées présentaient des différences de sensibilité vis-à-vis du co-traitement. Ainsi, une analyse transcriptomique in silico a mis en évidence des profils très différents de ces lignées hautement métastatiques et très agressives. Notamment, la lignée SUM1315 semblait présenter un engagement neuronal, suggérant son origine métastatique cérébrale. Ces résultats encourageants pourraient ouvrir de nouvelles perspectives pour le traitement des métastases cérébrales de tumeurs mammaires TN, très fréquentes chez ce sous-type. Dans un troisième temps, afin de mieux caractériser le mode d’action de l’Olaparib sur ces modèles de sphéroïdes, un dérivé fluorescent de l’Olaparib, l’Ola-FL, a été synthétisé et caractérisé. L’analyse de la pénétration et de la distribution de l’Ola-FL au sein des sphéroïdes MDA-MB-231 et SUM1315 a mis en évidence une distribution rapide et homogène du composé ainsi que sa persistance après 3h d’incubation, dans toute la profondeur des sphéroïdes et notamment dans les zones hypoxiques centrales. Enfin, l’analyse de la co-expression de deux pompes Multidrug Resistance (MDR) majeures, la MRP7 et la P-gp après le traitement des deux lignées TN avec l’Olaparib, a mis en évidence sur les cultures 2D, une expression de type relai de la MRP7 et la P-gp. Sur les sphéroïdes traités avec une faible dose d’Olaparib à long terme, une expression basale de la MRP7 et une surexpression de la P-gp ont été détectées, au sein des cellules résiduelles périphériques des sphéroïdes. Ces résultats mettent clairement en évidence l’implication des pompes d’efflux dans les mécanismes de résistances à l’Olaparib, dans ces tumeurs agressives. L’ensemble des résultats issus de la modélisation de l’action de l’Olaparib sur des sphéroïdes MDA-MB-231 et SUM1315 laissent supposer sa plus grande efficacité à faible dose et à long-terme, notamment dans les zones hypoxiques des sphéroïdes, probablement aussi à l’origine de son effet potentialisateur avec la radiothérapie. / Breast cancer is a very complex and heterogeneous disease. Among the different molecular subtypes, Triple-Negative (TN) breast cancers are particularly aggressive and of poor prognosis. TN tumours are characterized by a lack of estrogen receptors expression (ER), progesterone receptors expression (PR), the absence of Human Epidermal growth factor receptor 2 overexpression (HER2) of the frequent mutations on BRCA1 / 2 genes ("BRCAness" phenotype). In the absence of effective targeted therapies, many targeted therapies including poly-ADP-ribose polymerase inhibitors (anti-PARPs) are currently under development in preclinical and clinical studies. Based on the synthetic lethality concept, the anti-PARPs specifically target the BRCAness properties of TN tumors. In this context, these works were focused on the development of diagnostic tools for the optimization of TN tumours treatment with anti-PARPs. For this, firstly, 3D cell cultures formed with the Liquid Overlay technique as well as associated cytotoxicity tests were developed, from the TN breast cancer cell lines MDA-MB-231 and SUM1315. These two spheroid models were then optimized and standardized in a synthetic culture medium called OPTIPASS (BIOPASS). Secondly, the efficacy of a co-treatment combining anti-PARP1 Olaparib at low and high doses and fractioned radiotherapy (5x2 Gy) was analyzed on the two cell lines MDA-MB-231 and SUM1315 cultured in 2D and 3D conditions. These experiments clearly demonstrated a potentiating effect of Olaparib on radiotherapy (i) in presence of low doses of this anti-PARP (5 μM or inferior) (ii) at long term and (iii) in presence of the maximum fractionation (5x2 Gy). In addition, these two TN cell lines showed a heterogeneous sensitivity to the co-treatment. Thus, an in silico transcriptomic analysis revealed very different profiles of these highly metastatic and highly aggressive cell lines. Notably, the SUM1315 cell line presented a neuronal commitment, suggesting its cerebral metastatic origin. These promising results could open up new perspectives for the treatment of TN tumours brain metastases, which are very common in this subtype. Thirdly, in order to better characterize the mode of action of Olaparib on these spheroid models, a fluorescent derivative of Olaparib, Ola-FL, was synthesized and characterized. The analysis of Ola-FL penetration and distribution in MDA-MB-231 and SUM1315 spheroids showed a rapid and homogeneous distribution of the compound as well as its persistence after 3h of incubation, in all the depth of the spheroids and especially in the central hypoxic zones. Finally, the analysis of the co-expression of two major Multidrug Resistance (MDR) pumps, MRP7 and P-gp after the treatment of the two TN lines with Olaparib, revealed on 2D cultures, a relay type expression of the MRP7 and the P-gp. On spheroids treated with a low dose of Olaparib art long term (10 days), a basal expression of MRP7 and an overexpression of P-gp were detected in the peripheral residual cells of the spheroids. These results clearly highlighted the involvement of these efflux pumps in Olaparib resistance mechanisms, in these aggressive tumors. All the results resulting from the modeling of the action of Olaparib on MDA-MB-231 and SUM1315 spheroids suggest its greater efficacy at low dose and at long-term, especially in the hypoxic zones of the spheroids. This parameter might be probably at the origin of its potentiating effect with radiotherapy. Cancer du sein Triple-Négatif CSTN Culture 3D sphéroïdes Milieu de culture sans sérum Anti-PARP1 Olaparib Radiothérapie fractionnée combinée MultiDrug Resistance MRP7 P-gp Ola-FL Triple-Negative Breast Cancer TNBC 3D cell culture, spheroids Serum-free culture medium Anti-PARP1 Olaparib Combined fractioned radiotherapy Multidrug Resistance MRP7 P-gp Ola-FL
80	Microarrays for the scalable production of metabolically relevant tumour spheroids: a tool for modulating chemosensitivity traits Hardelauf, Heike, Frimat, Jean-Philippe, Stewart, Joanna D., Schormann, Wiebke, Chiang, Ya-Yu, Lampen, Peter, Franzke, Joachim, Hengstler, Jan G., Cadenas, Cristina, Kunz-Schughart, Leoni A., West, Jonathan January 2011 (has links) We report the use of thin film poly(dimethylsiloxane) (PDMS) prints for the arrayed mass production of highly uniform 3-D human HT29 colon carcinoma spheroids. The spheroids have an organotypic density and, as determined by 3-axis imaging, were genuinely spherical. Critically, the array density impacts growth kinetics and can be tuned to produce spheroids ranging in diameter from 200 to 550 µm. The diffusive limit of competition for media occurred with a pitch of ≥1250 µm and was used for the optimal array-based culture of large, viable spheroids. During sustained culture mass transfer gradients surrounding and within the spheroids are established, and lead to growth cessation, altered expression patterns and the formation of a central secondary necrosis. These features reflect the microenvironment of avascularised tumours, making the array format well suited for the production of model tumours with defined sizes and thus defined spatio-temporal pathophysiological gradients. Experimental windows, before and after the onset of hypoxia, were identified and used with an enzyme activity-based viability assay to measure the chemosensitivity towards irinotecan. Compared to monolayer cultures, a marked reduction in the drug efficacy towards the different spheroid culture states was observed and attributed to cell cycle arrest, the 3-D character, scale and/or hypoxia factors. In summary, spheroid culture using the array format has great potential to support drug discovery and development, as well as tumour biology research. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich. info:eu-repo/classification/ddc/570 ddc:570 info:eu-repo/classification/ddc/012 ddc:012

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