Global ETD Search

21	Targeted Drug Delivery to Breast Cancer using Polymeric Nanoparticle Micelles Ho, Karyn 13 December 2012 (has links) Broad distribution and activity limit the utility of anti-cancer compounds by causing unacceptable systemic toxicity and narrow therapeutic indices. To improve tumour accumulation, drug-loaded macromolecular assemblies have been designed to replace conventional surfactant-based formulations. Their nanoscale size enhances tumour accumulation via hyperpermeable vasculature and reduced lymphatic drainage. Incorporating targeting ligands introduces cell specificity through receptor-specific binding and uptake, enabling drugs to reach intracellular targets. In this work, the targeting properties of polymer nanoparticle micelles of poly(2-methyl-2-carboxytrimethylene carbonate-co-D,L-lactide)-graft-poly(ethylene glycol)-furan (poly(TMCC-co-LA)-g-PEG) were verified using in vitro and in vivo models of breast cancer. To select a relevant mouse model, the vascular and lymphovascular properties of two tumour xenograft models were compared. Greater accumulation of a model nanocarrier was observed in orthotopic mammary fat pad (MFP) tumours than size matched ectopic subcutaneous tumours, suggesting that the organ environment influenced the underlying pathophysiology. Immunostaining revealed greater vascular thickness, density and size, and thinner basement membranes in MFP tumours, likely contributing to greater blood perfusion and vascular permeability. Based on these observations, MFP tumour-bearing mice were used to characterize the pharmacokinetics and biodistribution of a taxol drug, docetaxel, encapsulated in poly(TMCC-co-LA)-g-PEG nanoparticles. The nanoparticle formulation demonstrated longer docetaxel circulation in plasma compared to the conventional surfactant-based formulation. As a result, greater docetaxel retention was uniquely measured in tumour tissue, extending exposure of tumour cells to the active compound and suggesting potential for increased anti-cancer efficacy. Furthermore, active targeting of antibody-modified nanoparticles to live cells was shown to be selective and receptor-specific. Binding isotherms were used to quantify the impact of antibody density on binding strength. The equilibrium binding constant increased linearly with the average number of antibodies per particle, which is consistent with a single antibody-antigen interaction per particle. This mechanistic understanding enables binding behaviour to be adjusted in a predictive manner and guides rational nanoparticle design. These studies validate poly(TMCC-co-LA)-g-PEG nanoparticles as a platform for targeted delivery to cancer on both a tissue and cellular level, forming a compelling justification for further pre-clinical evaluation of this system for safety and efficacy in vivo. Drug delivery Cancer Chemotherapy Anti-cancer therapy Polymeric nanoparticles Nanoparticle micelles Pharmacokinetics Biodistribution Live cell binding Tumour xenograft models Tumour pathophysiology Orthotopic tumour model Nanoparticle targeting Passive targeting Active targeting Formulations Antibody targeting Breast cancer 0541 0542
22	Caractérisation d'un modèle cellulaire et animal orthotopique des cancers des VADS : du ciblage tumoral in vitro ou rôle de l'imagerie de fluorescence in vivo dans l'exérèse tumorale / Characterization of a cellular and an orthotopic animal model of head and neck cancer : from in vitro tumor targeting to in vivo fluorescence imaging-guided tumor resection Atallah, Ihab Nader Tawfik 30 June 2014 (has links) Introduction : La thérapie ciblée des cancers des VADS nécessite la mise au point de nouveaux vecteurs spécifiques. Ces vecteurs servent à acheminer des substances thérapeutiques, mais aussi ils peuvent être couplés à des fluorophores afin de les utiliser dans la chirurgie guidée par l'imagerie de fluorescence proche infrarouge.Objectifs : L'objectif de notre travail est de tester de nouveaux vecteurs des cancers des VADS et d'étudier l'apport de l'imagerie de fluorescence proche infrarouge dans la chirurgie des cancers des VADS chez un modèle animal orthotopique que nous mettons au point.Matériel et méthodes : La lignée cellulaire des cancers des VADS CAL33 est caractérisée in vitro et in vivo. De nouveaux vecteurs qui ciblent un ou plusieurs récepteurs des cellules CAL33 comme l'intégrine alpha v beta 3, l'EGFR et la NRP1, sont testés in vitro. Parallèlement, un modèle animal orthotopique des cancers des VADS est développé par implantation de fragments tumoraux des cellules CAL33, au niveau de la cavité buccale de la souris nude. La résection des tumeurs orthotopiques est guidée par l'imagerie de fluorescence proche infrarouge, après injection systémique du peptide RAFT-c[RGD]4 couplé à un fluorophore. Ce peptide cible l'intégrine alpha v beta 3 et est préalablement testé in vivo sur les cellules CAL33.Résultats : Nos résultats préliminaires montrent que certaines molécules bispécifiques présentent une liaison accrue in vitro aux cellules CAL33. Par ailleurs, la chirurgie guidée par l'imagerie de fluorescence proche infrarouge ciblant l'intégrine alpha v beta 3, présente un impact positif sur la survie sans rechute dans notre modèle orthotopique, à travers la détection de reliquats tumoraux qui pourraient passer inaperçus si l'exérèse tumorale avait été réalisée exclusivement d'une façon macroscopique. Elle permet aussi de détecter les adénopathies métastatiques.Conclusion : L'imagerie de fluorescence proche infrarouge améliore la qualité de l'exérèse tumorale dans notre modèle orthotopqiue optimisé des cancers des VADS. Cette étape préclinique est indispensable avant de tester cette technique chez l'être humain. / Introduction: Targeted therapy of head and neck squamous cell carcinoma (HNSCC) requires the development of novel specific vectors that can deliver therapeutic molecules. These vectors could also be coupled to fluorophores to be used in near infrared fluorescence imaging-guided surgery.Objectives: The aim of our work is to test new targeted vectors of HNSCC and to study the role of the near infrared fluorescence imaging-guided surgery in HNSCC resection in a novel orthotopic animal model that we develop.Materials and Methods: The HNSCC cell line CAL33 is characterized in vitro and in vivo. Novel vectors that target one or more receptors of this cell line such as alpha v beta 3 integrin, EGFR and NRP1, are tested in vitro. Meanwhile, an orthotopic animal model of HNSCC is developed by implanting tumor fragments of CAL33 cells, in the oral cavity of nude mice. Surgical resection of orthotopic tumors is guided by the near infrared fluorescence imaging after systemic injection of RAFT-c[RGD]4 peptide coupled with a fluorophore. This peptide targets alpha v beta 3 integrin and is previously tested in vitro.Results: Our preliminary results show that bispecific vectors would present an increased binding to CAL33 cells in vitro. On the other hand, near infrared fluorescence imaging-guided surgery has a positive impact on the recurrence-free survival rate in our orthotopic model, by detecting fluorescent cancer foci that could remain unidentified if resection was performed exclusively under visual guidance. Our results show also that near infrared fluorescence imaging can also help to detect metastatic lymph nodes.Conclusion: Near-infrared fluorescence imaging-guided surgery improves the quality of tumor resection in our optimized orthotopic animal model of HNSCC. This preclinical stage is essential before testing this novel technique in humans. Cancers des VADS Vecteur spécifique Modèle animal orthotopique Intégrine alpha-v beta-3 RAFT-c(RGD)4 HNSCC Specific vector Orthotopic animal model Near-infrared fluorescence imaging Alpha-v beta-3 integrin RAFT-c( RGD)4 570
23	Die Wirkung des kompetitiven Gastrin-releasing peptide-(GRP-) -Antagonisten RC 3095 auf das Wachstumsverhalten im Modell experimentell induzierter orthotoper Nierenzellkarzinome – Analyse mittels Volumencomputertomographie (VCT) / The Impact of the Competitive Gastrin-Releasing Peptide (GRP) Antagonist RC 3095 on Growth Behaviour in the Model of Experimentally Induced Orthotopic Renal Cell Carcinoma – Analysis Based on Volumetric Computed Tomography (VCT) Koskinas, Nikolaos 18 October 2017 (has links) No description available. 610
24	Das Bildgeführte Präzisionsbestrahlungsgerät für Kleintiere (SAIGRT): von der Entwicklung bis zur Praxisreife Tillner, Falk 22 April 2020 (has links) Das entwickelte Bildgeführte Präzisionsbestrahlungsgerät für Kleintiere (engl. Small Animal Image-Guided Radiation Therapy – SAIGRT) dient der schnellen, hochauflösenden Röntgenbildgebung und präzisen, konformalen Bestrahlung von Kleintieren im Rahmen präklinischer in-vivo Experimente für die translationale Krebsforschung. Speziell programmierte Softwares zur Gerätesteuerung sowie zur Bildkorrektur- und Bildrekonstruktion auf dem zentralen leistungsfähigen Arbeitsplatz-PC stellen alle Gerätefunktionen zur Verfügung und ermöglichen durch automatisierte Abläufe und intuitive grafische Nutzeroberflächen eine einfache, sichere Bedienung. Für die Bestrahlungsplanung wird eine vollwertige, aus der humanen klinischen Strahlentherapie adaptierte 3D-Bestrahlungsplanungssoftware eingesetzt, die etablierte Werkzeuge für den Transfer und die Koregistrierung multimodaler Bilddaten, die Konturierung und Segmentierung von Zielvolumina und Risikoorganen sowie die Erstellung und Validierung von Bestrahlungsplänen enthält. Die resultierende Dosisverteilung wird darin basierend auf dem individuellen CT-Datensatz des Versuchstieres und einem auf das SAIGRT angepassten Maschinenmodell mittels eines Monte-Carlo-Algorithmus exakt und realitätsnah simuliert. Durch geometrische Kalibrierungen und vielfältige Basisdatenmessungen für die Bildgebung und Bestrahlung im Rahmen der Gerätekommissionierung ist eine Zielgenauigkeit von ca. ±0,1 mm mit hoher geometrischer Abbildungstreue und guter Bildqualität bei Bildgebungsdosen vergleichbar denen klinischer Radiografie- und CT-Geräte möglich. Die Dosisverteilung zur Bestrahlung der Versuchstiere spiegelt bei der definierten Strahlungsqualität größenskaliert die humane Strahlentherapie mit hochenergetischer Photonenstrahlung von klinischen Linearbeschleunigern wider. Ein umfassendes Qualitätssicherungsprogramm bestehend aus regelmäßiger Wartung und wiederkehrenden Konstanzprüfungen der Bildgebung und Bestrahlung sichert dauerhaft den technisch einwandfreien Zustand und die ordnungsgemäße Verfügbarkeit aller Gerätefunktionen in gleichbleibender Güte. Das SAIGRT ist somit nachweislich geeignet, bildgeführte Bestrahlungen mit einem Ablauf analog dem einer modernen klinischen Strahlentherapie am Menschen in präklinischen in-vivo Experimenten präzise an Kleintieren zu applizieren. Es leistet dadurch einen essentiellen Beitrag zur translationalen Krebsforschung in Dresden, indem die klinische Situation realistischer modelliert und so potenziell die Übertragbarkeit der Ergebnisse auf Krebspatienten verbessert werden kann. / The Small Animal Image-Guided Radiation Therapy (SAIGRT) platform facilitates fast, high resolution X-ray imaging and precise, conformal irradiation of small animals in preclinical in-vivo experiments for translational cancer research. Dedicated software for device control as well as image correction and reconstruction on a central high performance PC provide all device functions and allow simple and safe operation by automated procedures and intuitive graphical user interfaces. A fully 3D treatment planning software adapted from human clinical radiation therapy is used for treatment planning, containing established tools and methods for the transfer and registration of multimodality imaging data, contouring and segmentation of target volumes and organs at risk as well as creation and evaluation of treatment plans. Based on an individual CT scan of the small animal and a machine model adapted for the SAIGRT, the resulting dose distribution is simulated by a Monte-Carlo algorithm in a precise and realistic manner. Geometrical calibrations as well as manifold basic data measurements for X-ray imaging and irradiation during commissioning resulted in a targeting and imaging accuracy of about ±0.1 mm, a correct representation of imaging geometry and a good image quality with imaging doses comparable with those of clinical radiography and CT systems. Dose distribution of the defined beam quality used for irradiation of small animals reflects a downsized human radiation therapy using high energy photon beams of clinical linear accelerators. A comprehensive quality assurance program comprising regular maintenance and periodic constancy tests of X-ray imaging and irradiation ensures permanent technically perfect condition and proper availability of all implemented functions in a stable high quality. The SAIGRT platform is feasible for image-guided irradiations precisely applied to small animals in preclinical in-vivo experiments using a workflow of modern human radiation oncology. Thus, it significantly contributes to translational cancer research by more realistic modelling the clinical situation and potentially brings the results closer to their clinical implementation. info:eu-repo/classification/ddc/610 ddc:610
25	Sigma-1 Receptor Positron Emission Tomography: A New Molecular Imaging Approach Using (S)-(−)-[18F]Fluspidine in Glioblastoma Toussaint, Magali, Deutscher-Conrad, Winnie, Kranz, Mathias, Fischer, Steffen, Ludwig, Friedrich-Alexander, Juratli, Tareq A., Patt, Marianne, Wünsch, Bernhard, Schackert, Gabriele, Sabri, Osama, Brust, Peter 20 April 2023 (has links) Glioblastoma multiforme (GBM) is the most devastating primary brain tumour characterised by infiltrative growth and resistance to therapies. According to recent research, the sigma-1 receptor (sig1R), an endoplasmic reticulum chaperone protein, is involved in signaling pathways assumed to control the proliferation of cancer cells and thus could serve as candidate for molecular characterisation of GBM. To test this hypothesis, we used the clinically applied sig1R-ligand (S)-(−)-[18F]fluspidine in imaging studies in an orthotopic mouse model of GBM (U87-MG) as well as in human GBM tissue. A tumour-specific overexpression of sig1R in the U87-MG model was revealed in vitro by autoradiography. The binding parameters demonstrated target-selective binding according to identical KD values in the tumour area and the contralateral side, but a higher density of sig1R in the tumour. Different kinetic profiles were observed in both areas, with a slower washout in the tumour tissue compared to the contralateral side. The translational relevance of sig1R imaging in oncology is reflected by the autoradiographic detection of tumour-specific expression of sig1R in samples obtained from patients with glioblastoma. Thus, the herein presented data support further research on sig1R in neuro-oncology. info:eu-repo/classification/ddc/540 ddc:540
26	The role of the axon guidance molecule Slit2 in pancreatic cancer Göhrig, Andreas 22 April 2015 (has links) Lokale Invasion und Ausbreitung von Tumorzellen entlang von Nerven und Gefäßen limitieren den Erfolg kurativer Therapien von Patienten mit Pankreaskarzinom (PDAC). Der axon guidance Faktor Slit2 und seine Robo-Rezeptoren steuern die Navigation von Nerven und Gefäßen sowie die Motilität von Epithelzellen. Sie stellen somit attraktive Regulatoren der klinisch bedeutsamen Ausbreitungswege des PDAC dar. Zielsetzung der vorgelegten Arbeit war die Charakterisierung der Expression von Slit2 im PDAC und seiner Funktion für Tumorwachstum und -ausbreitung. Quantitative Analysen belegten eine deutliche Reduktion der Slit2 mRNA Expression in humanen PDAC Proben im Vergleich zu gesundem Gewebe. Zudem korrelierten Slit2 mRNA-Werte unterhalb des Medians mit einer höheren Inzidenz lymphatischer Metastasierung und einem gesteigerten Prozentsatz befallener Lymphknoten. Die Slit2-Rezeptoren Robo1 und 4 wiesen hingegen vergleichbare Immunreaktivität im Tumor und gesundem Gewebe auf, wobei eine differentielle Lokalisation in Epithelien, Nerven und Gefäßen zu beobachten war. Die Re-Expression von Slit2 in Slit2-defizienten Zelllinien führte zu einer Hemmung der gerichteten Migration und Invasion. Der Robo1-Rezeptor knockdown hingegen stimulierte die Motilität von Tumorzellen mit endogener Slit2 Expression. Slit2-konditioniertes Medium aus Tumorzellen hemmte die Lamellipodienbildung und die Migration von Endothelzellen. In orthotopen humanen Xenograft-Modellen und einem murinen, syngenen Tumormodell reduzierte die Re-Expression von Slit2 in PDAC Zellen Tumorwachstum, Invasion, Metastasierung und Angiogenese. Zudem verminderte die Induktion von Slit2 in PDAC Zellen deren gerichtete Migration entlang aussprießender Neuriten in einem ex vivo Model. Die vorliegenden Daten weisen Slit2 die Funktion eines Tumorsuppressors im duktalen Pankreaskarzinom zu. Ein Verlust der Slit2-Robo Aktivität könnte somit Metastasierung und neuronale Invasion fördern und einen aggressiveren Phänotyp begünstigen. / Early dissemination of pancreatic ductal adenocarcinoma (PDAC) via vascular routes and neural invasion limits curative therapy, suggesting a central role for the interaction of tumor cells with blood vessels and nerves in the tumor stroma. Slit2 and its Robo receptors constitute a system of guidance cues that function in axon guidance, angiogenesis and epithelial morphogenesis, respectively. Here, we studied the expression of Slit2 in PDAC and its function for tumor growth and dissemination. Slit2 mRNA expression was reduced in specimens of human PDAC as compared to non-transformed pancreas and low Slit2 mRNA expression correlated with a higher incidence and a higher extent of lymphatic metastasis. In contrast, the Slit2 receptors Robo1 and Robo4 were uniformly present in clinical samples of PDAC and healthy pancreas and displayed differential localization on epithelial tumor cells, nerves and tumor vasculature. Stable or inducible re-expression of Slit2 in Slit2-deficient PDAC cell lines inhibited directed migration and invasion. Conversely, Robo1-knockdown stimulated the motility of PDAC cells with endogenous Slit2 expression. Tumor cell derived Slit2, furthermore, suppressed lamellipodia formation and migration of primary endothelial cells. In vivo studies in orthotopic human xenograft and mouse syngeneic pancreatic cancer models revealed that re-expression of Slit2 in PDAC cells inhibited tumor growth, invasion, metastasis and angiogenesis. In addition, induction of Slit2 in PDAC cells impaired the unidirectional migration along outgrowing neurites in ex vivo co-cultures of tumor cells and dorsal root ganglia. These data provide evidence for a functional role of Slit2 as a tumor suppressor in human PDAC. A loss of Slit2-Robo activity as observed in human PDAC samples, might consequently promote metastasis and neural invasion and favors a more aggressive phenotype. Angiogenese Metastasierung Invasion Duktales Adenokarzinom des Pankreas Neurale Invasion Orthotopes Tumorwachstum Robo Rezeptoren Slit2 Xenograft Angiogenesis Invasion Metastasis Axon guidance Neural invasion Orthotopic tumor growth Pancreatic ductal adenocarcinoma (PDAC) Robo receptors Slit2 Xenograft 570 Biowissenschaften, Biologie 32 Biologie XH 7504 ddc:570
27	An orthotopic xenograft model for high-risk non-muscle invasive bladder cancer in mice: influence of mouse strain, tumor cell count, dwell time and bladder pretreatment Hübner, Doreen, Rieger, Christiane, Bergmann, Ralf, Ullrich, Martin, Meister, Sebastian, Toma, Marieta, Wiedemuth, Ralf, Temme, Achim, Novotny, Vladimir, Wirth, Manfred, Bachmann, Michael, Pietzsch, Jens, Fuessel, Susanne 05 June 2018 (has links) (PDF) Background Novel theranostic options for high-risk non-muscle invasive bladder cancer are urgently needed. This requires a thorough evaluation of experimental approaches in animal models best possibly reflecting human disease before entering clinical studies. Although several bladder cancer xenograft models were used in the literature, the establishment of an orthotopic bladder cancer model in mice remains challenging. Methods Luciferase-transduced UM-UC-3LUCK1 bladder cancer cells were instilled transurethrally via 24G permanent venous catheters into athymic NMRI and BALB/c nude mice as well as into SCID-beige mice. Besides the mouse strain, the pretreatment of the bladder wall (trypsin or poly-L-lysine), tumor cell count (0.5 × 106–5.0 × 106) and tumor cell dwell time in the murine bladder (30 min – 2 h) were varied. Tumors were morphologically and functionally visualized using bioluminescence imaging (BLI), magnetic resonance imaging (MRI), and positron emission tomography (PET). Results Immunodeficiency of the mouse strains was the most important factor influencing cancer cell engraftment, whereas modifying cell count and instillation time allowed fine-tuning of the BLI signal start and duration – both representing the possible treatment period for the evaluation of new therapeutics. Best orthotopic tumor growth was achieved by transurethral instillation of 1.0 × 106 UM-UC-3LUCK1 bladder cancer cells into SCID-beige mice for 2 h after bladder pretreatment with poly-L-lysine. A pilot PET experiment using 68Ga-cetuximab as transurethrally administered radiotracer revealed functional expression of epidermal growth factor receptor as representative molecular characteristic of engrafted cancer cells in the bladder. Conclusions With the optimized protocol in SCID-beige mice an applicable and reliable model of high-risk non-muscle invasive bladder cancer for the development of novel theranostic approaches was established. Biolumineszenz Luciferase Orthotopische Xenotransplantatmodelle Kleintier multimodale Bildgebung Magnetresonanztomographie Optische Bildgebung Positronen-Emissions-Tomographie Transurethrale Instillation UM-UC-3-Zelllinie Urothelkarzinom TU Dresden Publikationsfond Bioluminescence Luciferase Orthotopic xenograft models Small animal multimodal imaging Magnetic resonance imaging Optical imaging Positron emission tomography Transurethral instillation UM-UC-3 cell line Urothelial carcinoma TU Dresden Publishing Fund ddc:610 rvk:XA 10000
28	An orthotopic xenograft model for high-risk non-muscle invasive bladder cancer in mice: influence of mouse strain, tumor cell count, dwell time and bladder pretreatment Hübner, Doreen, Rieger, Christiane, Bergmann, Ralf, Ullrich, Martin, Meister, Sebastian, Toma, Marieta, Wiedemuth, Ralf, Temme, Achim, Novotny, Vladimir, Wirth, Manfred, Bachmann, Michael, Pietzsch, Jens, Fuessel, Susanne 05 June 2018 (has links) Background Novel theranostic options for high-risk non-muscle invasive bladder cancer are urgently needed. This requires a thorough evaluation of experimental approaches in animal models best possibly reflecting human disease before entering clinical studies. Although several bladder cancer xenograft models were used in the literature, the establishment of an orthotopic bladder cancer model in mice remains challenging. Methods Luciferase-transduced UM-UC-3LUCK1 bladder cancer cells were instilled transurethrally via 24G permanent venous catheters into athymic NMRI and BALB/c nude mice as well as into SCID-beige mice. Besides the mouse strain, the pretreatment of the bladder wall (trypsin or poly-L-lysine), tumor cell count (0.5 × 106–5.0 × 106) and tumor cell dwell time in the murine bladder (30 min – 2 h) were varied. Tumors were morphologically and functionally visualized using bioluminescence imaging (BLI), magnetic resonance imaging (MRI), and positron emission tomography (PET). Results Immunodeficiency of the mouse strains was the most important factor influencing cancer cell engraftment, whereas modifying cell count and instillation time allowed fine-tuning of the BLI signal start and duration – both representing the possible treatment period for the evaluation of new therapeutics. Best orthotopic tumor growth was achieved by transurethral instillation of 1.0 × 106 UM-UC-3LUCK1 bladder cancer cells into SCID-beige mice for 2 h after bladder pretreatment with poly-L-lysine. A pilot PET experiment using 68Ga-cetuximab as transurethrally administered radiotracer revealed functional expression of epidermal growth factor receptor as representative molecular characteristic of engrafted cancer cells in the bladder. Conclusions With the optimized protocol in SCID-beige mice an applicable and reliable model of high-risk non-muscle invasive bladder cancer for the development of novel theranostic approaches was established. info:eu-repo/classification/ddc/610 ddc:610
29	Inhibiteurs de PARP : leur rôle potentiel en monothérapie et en combinaison en cancer du sein triple-négatif Beniey, Michèle 12 1900 (has links) Quatorze femmes canadiennes meurent chaque jour du cancer du sein. Le cancer du sein triple-négatif (CSTN) détient un mauvais pronostic De nombreux efforts sont fournis afin d'offrir à ces patientes des traitements ciblés, comme les inhibiteurs de poly (adenosine diphosphate-ribose) polymerase inhibitors (PARPi) afin d’améliorer leur survie et de minimiser la toxicité liée à la chimiothérapie. Le sous-groupe de CSTN qui pourrait bénéficier des PARPi reste à être identifié. De plus, différentes stratégies d'administration des PARPi et de la chimiothérapie pourraient améliorer leur efficacité thérapeutique tout en diminuant la toxicité. Nous avons précédemment dérivé une signature génétique de 63 gènes prédisant la réponse aux PARPi avec une précision globale élevée. Nos objectifs sont 1) d'évaluer les implications cliniques de la signature génétique; et 2) de déterminer la séquence optimale d'administration du talazoparib et du carboplatin in vivo en cancer du sein triple-négatif BRCAWT. D'abord, nous avons évalué la fréquence mutationnelle des 63 gènes dans différents contextes cliniques. Deux bases de données publiques furent utilisées. Puis, nous avons comparé trois cohortes de xénogreffes orthotopiques: A) talazoparib en premier, combiné au carboplatin le jour 3; carboplatin en premier suivi du talazoparib B) un jour après; et C) sept jours après. La fréquence mutationnelle des 63 gènes était élevée chez les tumeurs luminales B et celles de mauvais pronostic. Les patientes luminales B mutées avaient une moindre survie que les patientes non mutées. Aussi, l'inhibition tumorale et métastatique était similaire pour les cohortes A et B, cependant la cohorte B avait moins de toxicité. Les PARPi pourraient avoir un rôle chez les tumeurs luminales B et celles de mauvais pronostic. Deuxièmement, le prétraitement avec le carboplatin semble améliorer la sensibilité au talazoparib et diminuer la toxicité. / Fourteen Canadian women die every day from breast cancer. Triple-negative breast cancer (TNBC) has a poor prognosis. Numerous efforts are made to offer these patients targeted therapies such as poly (adenosine diphosphate-ribose) polymerase inhibitors (PARPi) to improve survival and minimize chemotherapy-related toxicity. It is not well understood which subset of TNBC patients will benefit from PARPi; and if different sequencing strategies of PARPi and chemotherapy can improve therapeutic efficacy and decrease toxicity. We previously derived a 63-gene signature predicting response to PARPi with a high overall accuracy. Our objectives are 1) to evaluate the clinical implications of the 63-gene signature; and 2) to determine the optimal sequence of administration of talazoparib and carboplatin in vivo in BRCAWT TNBC. First, we evaluated the mutational frequency of the 63 genes in different clinical settings using two publically-available datatsets. Second, we compared three cohorts of orthotopic xenografts: A) talazoparib first, combined with carboplatin on day 3; carboplatin first, followed by talazoparib B) one day later; and C) seven days later. We found that the mutational frequency was high in breast cancer subtypes of poor prognosis. Mutated luminal B patients had a lower survival than non-mutated patients. We also found that tumoral and metastatic inhibition were similar between cohorts A and B, but cohort B had less toxicity. In conclusion, there is potential for PARPi efficacy in luminal B and poor prognosis tumors. Second, pretreatment with carboplatin may be an effective approach with less toxicity. signature génétique cancer du sein cancer du sein triple-négatif chimiothérapie thérapie ciblée inhibiteurs de PARP xénogreffe orthotopique métastases toxicité combinaison de traitement Gene signature Breast cancer Triple-negative breast cancer Chemotherapy Targeted therapy PARP inhibitors Orthotopic xenograft Metastasis Toxicity Combination treatment
30	Développement et caractérisation de A14-Cy5-ACCUM, un nouvel immunoconjugué fluorescent ciblant un marqueur moléculaire spécifique au cancer de la vessie infiltrant pour la cystoscopie guidée par fluorescence / Development and characterization of A14-Cy5-ACCUM, a new fluorescent immunoconjugate for targeting of muscle invasive bladder cancer during fluorescence-guided cystoscopy Fafard-Couture, Laurent January 2017 (has links) Le cancer de la vessie est un cancer fréquent et extrêmement onéreux par patient puisque plusieurs patients subissent des récidives de cancer et ont recours parfois à des chirurgies complexes. Il est donc important de diagnostiquer efficacement ces cancers lors de la prise en charge initiale du patient. En effet, la procédure standard d’imagerie pour la détection du cancer est la cystoscopie de la vessie guidée par lumière blanche, toutefois cette méthode ne permet pas de bien distinguer les cellules qui sont propices à l’invasion musculaire des cellules de cancer de la vessie non infiltrant. Ce mémoire propose d’utiliser un nouvel immunoconjugué fluorescent ciblant la sous-unité alpha du récepteur de l’interleukine 5, un nouveau biomarqueur spécifique aux cellules du cancer de la vessie infiltrant, afin d’effectuer la cystoscopie de la vessie guidée par fluorescence. Pour ce faire, un protocole de conjugaison du fluorochrome cyanine-5 (Cy5) à un anticorps monoclonal a été développé. De plus, un protocole de conjugaison d’un peptide Cell Accumulator (ACCUM) sur cet anticorps fluorescent (A14-Cy5-ACCUM) a été optimisé. Ensuite, la capacité de cet immunoconjugué à marquer les cellules humaines de cancer de la vessie infiltrantes du muscle (MIBC), HT1376, a été testée. Par la suite, un nouveau modèle orthotpique murin de MIBC humain permettant la validation préclinique prochaine de l’A14-Cy5-ACCUM a été développé. Une banque de plasma et sérum sanguin, et d’urine de patients sains et atteints de cancer de la vessie a été compilé. Cette biobanque contient 111 échantillons de plasma sanguin et d’urine qui pourront être utilisé afin de tester l’hypothèse selon laquelle le niveau d’interleukine-5 sanguin pourrait être un facteur pronostique pour la progression du cancer de la vessie. Ce projet jette les bases pour l’évaluation potentielle de la cystoscopie guidée par fluorescence lors de la prise en charge initiale des patients atteints de cancer de la vessie afin d’améliorer la survie sans progression et la survie à long terme des patients atteints de MIBC. / Abstract: Bladder cancer is a frequent and extremely costly cancer when evaluated on a per-patient basis because of its high recurrence rate and patients undergoing complex medical procedures. It is of utmost importance to better identify the aggressiveness of this cancer at initial diagnosis. The standard procedure for bladder cancer detection is still white-light guided cystoscopy, which relies mostly on physicians experience in regard to identifying invasive malignancies. This memoir proposes the use of a new fluorescent immunoconjugate, targeting the alpha subunit of interleukin-5 receptor (IL-5R[apha]), a new biomarker specific to muscle-invasive bladder cancer (MIBC) cells for fluorescence-guided cystoscopy. To do so, a conjugation protocol to fluorescently label a monoclonal antibody with cyanine-5 fluorophores has been developped. Then, a conjugation protocol to attach Cell Accumulator (ACCUM) peptides to this fluorescent immunoconjugate (A14-Cy5-ACCUM) has been optimized. Moreover, the ability of A14-Cy5-ACCUM to stain MIBC cell line HT1376 has been tested. Most importantly, a novel orthotpic rat model of human MIBC for the future preclinical validation of fluorescence-guided cystoscopy in rat bladder has been developped. Finally, a new bladder cancer tissue repository at the CHUS has been established. This repository contains a total of 111 plasma and urine patient samples that will be helpful to evaluate if interleukin-5 blood levels could be used as a prognosis marker for bladder cancer progression. This project laid the basis for the potential evaluation of fluorescence-guided cystoscopy during initial diagnosis of bladder cancer patients to improve their disease-free and long-term survival. Cyanine-5 (Cy5) Peptide Cell Accumulator (ACCUM) Anticorps monoclonal Cystoscopie guidée par fluorescence Imagerie par fluorescence Muscle-invasive bladder cancer (MIBC) Rat orthotopic human MIBC model Fluorescence-guided cystoscopy Fluorescence imaging Bladder cancer tissue depositor Monoclonal antibody Cell Acummulator peptide (ACCUM) Cyanine-5 (Cy5)

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