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Genes Preserving Stem Cell State in Medulloblastoma Contribute to Therapy Evasion and RelapseBakhshinyan, David January 2019 (has links)
Medulloblastoma (MB) is the most common malignant pediatric brain tumor. Out of the four molecular subgroups (WNT, SHH, Group 3 and Group 4), Group 3 patients face the highest incidence of leptomeningeal spread and overall patient survival of less than 50%. Current clinical trials for recurrent MB patients based on genomic profiles of primary, treatment-naïve tumors, provide limited clinical benefit since recurrent metastatic MBs are highly genetically divergent from their primary tumors. The paucity of patient matched primary and recurrent MB samples has contributed to the lack of molecular targets specific to medulloblastoma recurrence, limiting relapsing MB patients to palliation. Our previous in silico analyses revealed enriched expression of many stem cell self-renewal regulatory genes in Group 3 MB.
In this work, I have set out to investigate whether by identifying genes contributing to self-renewal of Group 3 MB cells, we can characterize a population of cells responsible for therapy evasion and subsequent tumor relapse. Initially, we have adapted the existing COG (Children’s Oncology Group) protocol for children with newly diagnosed high-risk MB for treatment of immuno-deficient mice intracranially xenografted with human MB cells. Cell populations recovered separately from brains and spines mice during the course of tumor development and therapy were comprehensively profiled for gene expression analysis, stem cell and molecular features to generate a global, comparative profile of MB cells through therapy. Additionally, we have investigated therapeutic potential of small molecules targeting BMI1, a known self-renewal regulating gene. In the setting of recurrent Group 3 MB, pharmacological inhibition of BMI1, led to a remarkable decrease in cell proliferation and self-renewal in vitro as well as reduction of local and spinal metastatic disease in vivo. Finally, by combining the established therapy-adapted patient-derived xenograft mouse model and BMI1 inhibitor, PTC-596, we have demonstrated an additive effect of two modalities and provided the pre-clinical data for the upcoming Phase I trial.
Biological investigations into the drivers of MB recurrence will lead to development of new therapeutic options for children who are frequently limited to palliation. Clinically relevant mouse models of MB recurrence can serve as platforms for pre-clinical testing and validation of new treatments aimed to provide therapeutic intervention rather than palliation. / Thesis / Doctor of Philosophy (PhD) / Medulloblastoma is the most common type of brain cancer that affects children. Out of the four main subgroups of medulloblastoma, tumors in Groups 3 and 4 are the most aggressive and are associated with a low overall survival in children diagnosed with this type of brain cancer. These two subtypes of medulloblastoma also account for the largest number of patients in which gold standard therapies fail and no additional therapies are available. Several studies have shown the existence of few cells within the tumor that alone can drive tumor growth. The aggressive behavior of these cells has in part been attributed to dysregulation of genes involved in cell replication and division. Further studies that will focus on understanding the significance of genes that regulate cell growth and replication can help discover a population of cells that is capable of evading therapy and contribute to tumor relapse. The identification and characterization of such population can lead to development of novel treatments for the children affected with aggressive medulloblastoma. In my thesis, I have developed a mouse model that replicates the aggressive therapy given to the medulloblastoma patients in order to study cells capable of escaping the harsh treatment and drive tumor comeback. Next, by profiling the gene expression and functional attributes of those cells, we identified genes that contribute to regulation of cell division and growth. The effects of both increasing and decreasing the activity of those genes were then tested in cells grown in the dish. Subsequently, the most promising results were verified in the established mouse models. The main objective of my thesis was to discover new opportunities in treatments the most aggressive type of brain cancer affecting children, and thus not only improve the quality of treatment but also the overall survival of patients with medulloblastoma.
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Therapeutic targeting of metastatic recurrences of pediatric medulloblastoma by selective kinase and histone deacetylase inhibitorsAdile, Ashley Ann January 2020 (has links)
Medulloblastoma (MB) is the most common malignant pediatric brain tumour. Of its four distinct molecular subgroups (WNT, SHH, Group 3, and Group 4), Group 3 MB patients hold the worst clinical prognosis due to their high incidence of tumour recurrence and metastasis to the spinal leptomeninges. Relapsed Group 3 MB patients, particularly those with MYC amplification (known as Group 3𝛾), carry a mortality rate of nearly 100%, given the paucity of effective therapeutic options currently available. The most common cause of mortality amongst these patients is leptomeningeal metastasis, yet this metastatic disease is poorly characterized. Our understanding of MB tumour recurrence and leptomeningeal metastasis is further encumbered by the rare clinical opportunities at which specimens may be collected from relapsed patients. We were able to circumvent this obstacle by establishing a patient-derived xenograft mouse-adapted therapy model, which mimics the treatments administered in the clinic and in turn, recapitulates both local and metastatic human MB recurrence. This model system enabled the collection of valuable, patient-derived Group 3𝛾 MB tumour cells from the spinal leptomeninges at relapse. It provides an opportunity for chemical screening, with the aim of identifying small molecule inhibitors capable of eradicating these cells. Existing studies on MB leptomeningeal dissemination at diagnosis suggest that effective treatments may target signalling proteins, such as phosphatidylinositol 3-kinases and histone deacetylases (HDACs). Therefore, I hypothesized that selective kinase and HDAC inhibitors would pose as effective therapies against Group 3𝛾 MB metastatic recurrences.
In this thesis, I conducted a high-throughput screen of 640 kinase inhibitors and robust testing of novel HDAC6-selective inhibitors against these treatment-refractory, metastatic cells. Here, I showed that metastatic recurrences of Group 3𝛾 MB are therapeutically vulnerable to selective inhibitors of checkpoint kinase 1 (CHK1), platelet-derived growth factor receptor beta (PDGFRβ), and HDAC6. Functional studies demonstrated that these inhibitors selectively target the aggressive, migratory Group 3𝛾 MB cells, while sparing healthy neural stem cells. They also showed effective blood-brain-barrier penetration in silico and in vitro, while significantly reducing MB tumour cell properties that are often associated with treatment failure. Taken together, my thesis highlights specific inhibitors of CHK1, PDGFRβ, and HDAC6 that effectively target MB tumour cells that fuel treatment-refractory leptomeningeal metastases. With additional preclinical validation, these compounds may serve as potent therapeutic options to extend survival and improve the quality of life for patients that are ostensibly limited to palliation. / Thesis / Master of Science (MSc) / Medulloblastoma is an aggressive brain cancer in children. While current standard treatment improves patient survival, 30-40% of all medulloblastoma patients relapse at local (brain) or metastatic (spine) sites. Medulloblastoma metastatic recurrences remain poorly understood, yet they result in an alarmingly high mortality rate amongst patients due to inadequate treatment options currently available. Specific molecular targets are common in both medulloblastoma and metastatic cancer research. These targets are particularly important in governing cell signalling pathways that regulate tumour growth and migration. Therefore, treatment against these targets may be effective at preventing medulloblastoma metastatic recurrences.
As the collection of local and metastatic tumour samples at patient relapse are rare, the Singh lab developed an animal model that mimics human medulloblastoma recurrence. In this thesis, recurrent medulloblastoma metastases were isolated from our established animal model and tested against compounds that inhibit the specific molecular targets previously implicated in medulloblastoma and other metastatic tumours. We identified potent compounds that effectively target these metastatic cells. Next, we determined which compounds spared healthy cells and were able to penetrate the brain, given our future objective of targeting these MB cells from their source to ultimately prevent metastasis. The identified compounds substantially reduced the ability of these cells to divide. With further investigation, these compounds may pose as effective therapeutic agents to treat human medulloblastoma patients with metastatic recurrences.
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Cascading Events in the Aftermath of a Targeted Physical Attack on the Power GridMeyur, Rounak 29 March 2019 (has links)
This work studies the consequences of a human-initiated targeted attack on the electric power system by simulating the detonation of a bomb at one or more substations in and around Washington DC. An AC power flow based transient analysis on a realistic power grid model of Eastern Interconnection is considered to study the cascading events. A detailed model of control and protection system in the power grid is considered to ensure the accurate representation of cascading outages. Particularly, the problem of identifying a set of k critical nodes, whose failure/attack leads to the maximum adverse impact on the power system has been analyzed in detail. It is observed that a greedy approach yields node sets with higher criticality than a degree-based approach, which has been suggested in many prior works. Furthermore, it is seen that the impact of a targeted attack exhibits a nonmonotonic behavior as a function of the target set size k. The consideration of hidden failures in the protective relays has revealed that the outage of certain lines/buses in the course of cascading events can save the power grid from a system collapse. Finally, a comparison with the DC steady state analysis of cascading events shows that a transient stability assessment is necessary to obtain the complete picture of cascading events in the aftermath of a targeted attack on the power grid. / M.S. / The modern day power system has been identified as a critical infrastructure providing crucial support to the economy of a country. Prior experience has shown that a small failure of a component in the power grid can lead to widespread cascading events and eventually result in a blackout. Such failures can be triggered by devastating damage due to a natural calamity or because of a targeted adversarial attack on certain points in the power system. Given limited budget to avoid widespread cascading failures in the network, an important problem would be to identify critical components in the power system. In this research an attempt has been made to replicate the actual power system conditions as accurately as possible to study the impact of a targeted adversarial attack on different points in the network. Three heuristics have been proposed to identify critical nodes in the network and their performance has been discussed. The case studies of cascading events have been performed on a synthetic power system network of Washington DC to achieve the actual system conditions of an operating power grid.
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Targeting HOX/PBX dimers in cancerMorgan, Richard, El-Tanani, Mohamed, Hunter, K.D., Harrington, K.J., Pandha, H.S. 07 March 2017 (has links)
Yes / The HOX and PBX gene families encode transcription factors that have key roles
in establishing the identity of cells and tissues in early development. Over the last 20
years it has become apparent that they are also dysregulated in a wide range of solid
and haematological malignancies and have a predominantly pro-oncogenic function.
A key mode of transcriptional regulation by HOX and PBX proteins is through their
interaction as a heterodimer or larger complex that enhances their binding affinity and
specificity for DNA, and there is growing evidence that this interaction is a potential
therapeutic target in malignancies that include prostate, breast, renal, ovarian
and lung cancer, melanoma, myeloma, and acute myeloid leukaemia. This review
summarizes the roles of HOX and PBX genes in cancer and assesses the therapeutic
potential of HOX/PBX dimer inhibition, including the availability of biomarkers for its
application in precision medicine.
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Cílení reklamy v televizním vysílání / Targeting advertising on TVMichelfeit, Radek January 2011 (has links)
The thesis is firstly focused on television broadcasting. The author briefly describes the development of television broadcasting and the market specifics of TV stations. Then he describes the operation as well as financing issues of TV stations. The commercial broadcasters are dependent on revenues from advertising, so this issue is appropriately emphasized in the thesis. Then the thesis deals with targeted advertising on television from the perspective of advertisers. It describes their approach to targeted marketing, the criteria for selecting appropriate media for advertising message, suitable television channel, programme and type of advertising message. Describes the electronic audience measurement which helps to position the TV ads properly. Author also proposes the use of viewer satisfaction surveys for more effective positioning of TV ads. The last part is devoted to research of targeted advertising on TV Barrandov and observes if it is possible to place the TV spots properly according to the selected target group.
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Design, Synthesis and Study of Novel Multivalent Ligands - Toward New Markers of Cancer CellsBrabez, Nabila January 2012 (has links)
Cancer is lacking early detection methods and treatment specificity. In order to increase the sensitivity and specificity towards cancer cells, we propose the use of multivalent interactions targeting specific receptor combinations at the cancer cell surface. In this thesis, we explored the design of multimers, which could provide such interactions. The design was investigated and revisited based on specific parameters, essential for the creation of multivalent interactions such as thermodynamics. The synthesis was designed so that libraries of homo- and hetero-multimers of different valencies can be obtained efficiently with good yields. The established synthetic scheme is empowered by its modularity, necessary to investigate different essential factors. Trimers composed of micromolar affinity MSH(4) targeting the MC1-R, overexpressed in melanoma, were investigated on a model cell line and resulted in the creation of nanomolar affinity constructs with up to 350 fold increase in affinity. Different multimers such as hexavalent and nonavalent dendrimers were synthesized and studied for their properties. All constructs had nanomolar affinity and showed to be non-toxic up to micromolar concentrations and imaging studies also confirmed their internalization, which overall demonstrate the potential for these compounds to be used as markers for cancer cells and as delivery agents. Trimers targeting the CCK2-R were similarly investigated for their potential as pancreatic cancer markers. However, those constructs did not seem to result in the expected enhancements in affinity, but the affinity of the initial monovalent agonist was in the 10-50 nanomolar range. As we were unable to design micromolar affinity agonist we investigated the use of antagonists. This study, revealed the importance of thermodynamics in the creation of multivalent interaction. Heterotrivalent ligands (CCK and MSH) were investigated for their potential in cross-linking different receptors and the study demonstrated the subtility to detect cross-linking. Finally, the different attempts toward the efficient synthesis of a tetra-orthogonal scaffold, a key feature needed to generate multimers that could target up to 3 different receptors was investigated and showed promising results. It is our hypothesis that such an approach will ultimately lead to specific markers of tumor cells, which could be used as diagnosis agents when modified with an imaging moiety and as a therapeutic agent when modified with a drug.
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Adénocarcinome canalaire pancréatique, mécanisme moléculaire et approche thérapeutique / Pancreatic ductal adenocarcinoma, molecular mechanism and therapeutic approachLafitte, Marie 18 October 2012 (has links)
L’adénocarcinome canalaire pancréatique est une maladie agressive et dévastatrice qui est caractérisée par une progression rapide et une résistance aux traitements. Le développement de nouveaux vecteurs à fort potentiel de transfert de gène dans les cellules tumorales pourrait être un outil performant et innovant pour améliorer les traitements existants. Nous avons développé un système de ciblage des cellules tumorales pancréatiques via l’antigène de surface Mucine 4 en utilisant des vecteurs lentiviraux spécifiques permettant le transfert efficace du gène cytotoxique de la Thymidine Kinase (hsv-TK) directement dans des modèles de tumeurs. La transduction lentivirale de cellules tumorales pancréatiques a été possible dans des xénogreffes orthotopiques. Le transfert du gène TK suivi d’un traitement au ganciclovir a montré des résultats encourageants in vivo. L’approche thérapeutique présentée ici semble être plus sécurisé, plus spécifique et aussi efficace qu’un lentivirus à large tropisme pour le transfert de gène dans les tumeurs pancréatiques. La mise en évidence de nouvelles cibles moléculaires dont la dérégulation participe au développement et à l’agressivité des tumeurs pancréatiques pourraient être utilisées pour moduler favorablement les traitements thérapeutiques en cours. De plus, ces nouvelles cibles moléculaires pourraient également servir de facteur de détection précoce ou de marqueurs pronostiques de l’adénocarcinome pancréatique. L’implication des isoformes du récepteur FGFR3 dans les mécanismes moléculaires de l’adénocarcinome pancréatique a été évaluée pour la première fois. Un rôle opposé d’oncogène et de gène suppresseur de tumeur a été découvert pour le FGFR3 en fonction du contexte cellulaire. Des voies de signalisation différentes sont empruntées pour induire ces effets opposés dans les cellules tumorales pancréatiques. Cette nouvelle donnée devra être considérée pour des thérapies ciblées impliquant des inhibiteurs de tyrosine kinases qui, s’ils sont utilisés dans un mauvais contexte cellulaire, pourraient être plus dangereux que bénéfiques. / Pancreatic ductal adenocarcinoma is an aggressive and devastating disease, which is characterized by rapid progression and resistance to treatment. The development of new vectors with high potential of gene transfer in tumor cells could be an innovative and valuable tool. We have developed a strategy of pancreatic tumor cells targeting with the cell surface marker Mucin 4 using specific lentiviral vectors for the efficient transfer of the thymidine kiniase cytotoxic gene within the tumor. Lentiviral transduction of human pancreatic tumor cells was possible when cells were grafted orthotopically. The hsv-TK/GCV anti-cancer system showed promising results in vivo. The approach presented here appeared to be a safer, much more specific and an as efficient way to perform gene delivery in pancreatic tumors, in comparison with a broad tropism lentivirus. Discovering new molecular targets which modulation contributes to the development and aggressiveness of pancreatic tumors could favorably modulate the current therapies. Furthermore, these new molecular targets could also serve as factors of early detection or prognostic markers of pancreatic adenocarcinoma. The involvement of FGFR3 receptor in the molecular mechanisms of pancreatic adenocarcinoma was evaluated for the first time. Opposite roles of both oncogene and tumor suppressor gene have been discovered for FGFR3 depending on the cellular context. Importantly, molecular pathways supporting these effects are different. This new data should be considered for targeted therapies involving tyrosine kinase inhibitors. If used in the wrong cell context they could be more dangerous than beneficial
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Identification de nouvelles voies de signalisation activées dans les léiomyosarcomes / Identification of novel activated signalling pathways in LeiomyosarcomasEl Sayadi, Hiba 23 December 2009 (has links)
Les léiomyosarcomes sont des tumeurs malignes mésenchymateuses composées de cellules à différentiation musculaire lisse. Elles présentent des altérations génétiques complexes avec pertes et gains de chromosomes variables selon les tumeurs, sans anomalies moléculaires récurrentes permettant de définir une entité nosologique contrairement aux sarcomes associés à des translocations (sarcome d’Ewing), ou à des mutations (GIST). Les évènements moléculaires pilotant la tumeur restent inconnus et donc aucune thérapie ciblée n’est encore identifiée. L’objectif de ce travail était d’identifier par protéomique de nouvelles cibles potentielles dans les LMS. Nous avons identifié des kinases activées en analysant le profil d’expression et de phosphorylation des protéines de signalisation, sur une série de 13 tumeurs congelées. Parmi celles-ci, une surexpression de Tyro-3, PKCq, et MSH2 et une perte de phosphorylation de FAK Y397 ont été détectées dans les tumeurs comparées au tissu sain. Une classification hiérarchique non supervisée a montré deux groupes de LMS ayant des profils d’expression protéique distincts. Nous nous sommes intéressés à Tyro-3 dont la co-expression avec son ligand Gas6 a été exclusivement associée à la phosphorylation d’Akt dans 8 des 13 LMS. Ces corrélations ont été retrouvées dans les deux lignées SK-LMS-1 et CNIO AA. La déphosphorylation de FAK Y397 a été observée uniquement dans CNIO AA qui exprime fortement Gas6. L’ajout de Gas6 exogène à SK-LMS-1 induit la phospho-Akt, et la déphosphorylation de FAK Y397. La double extinction de l’expression des gènes de Tyro-3 et Axl dans CNIO AA réduit la viabilité des cellules, suggérant un rôle crucial de cette voie dans les LMS / Soft tissue and visceral leiomyosarcoma account for 15% of all sarcomas in adults. Molecular alterations in LMS are not well characterized, with often complex gains and losses of chromosome segments. We investigated the expression or phosphorylation of kinases and downstream signalling molecules in a series of fresh frozen LMS and cell lines with the aim to identify potential targets for targeted therapy. Four proteins were found differentially expressed including Tyro3, a receptor tyrosine kinase. The functional activity of Tyro3 was investigated in 2 LMS cell lines, SK-LMS-1 and CNIO AA. Four proteins and phosphoproteins were found differentially expressed in LMS samples as compared to NSM: an hypophosphorylation of FAK Y397 was observed in all samples while Tyro3, MSH2, and PKC theta were found overexpressed in LMS samples. Gas6, the ligand of Tyro3 was found expressed in 8 of the 13 samples, and the coexpression of Gas6 and Tyro3 was found exclusively associated with Akt phosphorylation. Both SK-LMS-1 and CNIO AA LMS cell lines were found to express Tyro3, while Gas6 expression was only observed in CNIO AA cells. P-Akt was expressed spontaneously in CNIO AA, but not in SKLMS-1, while the opposite figure was observed for phosphorylated FAK Y397. Exposure of SKLMS-1 to exogenous Gas6 induced P-Akt, and resulted in a reduction of FAK Y397 phosphorylation. Transfection of CNIO AA with siRNA directed against, Tyro3 and Axl genes induced a reduction of the expression of the specific proteins, and when combined, significantly reduced CNIO AA cell viability. Gas 6 a ligand of Tyro3 is expressed in a subset of LMS tumors and cell lines, and may exert autocrine activities in a subset of LMS
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Robust French syntax analysis : reconciling statistical methods and linguistic knowledge in the Talismane toolkit / Analyse syntaxique robuste du français : concilier méthodes statistiques et connaissances linguistiques dans l'outil TalismaneUrieli, Assaf 17 December 2013 (has links)
Dans cette thèse, nous explorons l'analyse syntaxique robuste statistique du français. Notre principal souci est de trouver des méthodes qui permettent au linguiste d'injecter des connaissances et/ou des ressources linguistiques dans un moteur statistique afin d'améliorer les résultats de certains phénomènes spécifiques. D'abord nous décrivons le schéma d'annotation en dépendances du français, et les algorithmes capables de produire cette annotation, en particulier le parsing par transitions. Après avoir exploré les algorithmes d'apprentissage automatique supervisé pour les problèmes de classification en TAL, nous présentons l'analyseur syntaxique Talismane développé dans le cadre de cette thèse et comprenant quatre modules statistiques – le découpage en phrases, la segmentation en mots, l'étiquetage morpho-syntaxique et le parsing – ainsi que les diverses ressources linguistiques utilisées par le modèle de base. Nos premières expériences tentent d'identifier la meilleure configuration de base parmi de nombreuses configurations possibles. Ensuite nous explorons les améliorations apportées par la recherche par faisceau et la propagation du faisceau. Enfin nous présentons une série d'expériences dont le but est de corriger des erreurs linguistiques spécifiques au moyen de traits ciblés. Une de nos innovations est l'introduction des règles qui imposent ou interdisent certaines décisions locales, permettant ainsi de contourner le modèle statistique. Nous explorons l'utilisation de règles pour les erreurs que les traits n'ont pu corriger. Finalement, nous présentons une expérience semi-supervisée avec une ressource de sémantique distributionnelle. / In this thesis we explore robust statistical syntax analysis for French. Our main concern is to explore methods whereby the linguist can inject linguistic knowledge and/or resources into the robust statistical engine in order to improve results for specific phenomena. We first explore the dependency annotation schema for French, concentrating on certain phenomena. Next, we look into the various algorithms capable of producing this annotation, and in particular on the transition-based parsing algorithm used in the rest of this thesis. After exploring supervised machine learning algorithms for NLP classification problems, we present the Talismane toolkit for syntax analysis, built within the framework of this thesis, including four statistical modules - sentence boundary detection, tokenisation, pos-tagging and parsing - as well as the various linguistic resources used for the baseline model, including corpora, lexicons and feature sets. Our first experiments attempt various machine learning configurations in order to identify the best baseline. We then look into improvements made possible by beam search and beam propagation. Finally, we present a series of experiments aimed at correcting errors related to specific linguistic phenomena, using targeted features. One our innovation is the introduction of rules that can impose or prohibit certain decisions locally, thus bypassing the statistical model. We explore the usage of rules for errors that the features are unable to correct. Finally, we look into the enhancement of targeted features by large scale linguistic resources, and in particular a semi-supervised approach using a distributional semantic resource.
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Drug targeting delivery systems for treatment of Raf-1 induced lung tumors in mice / Trägersystem der Medikamente für Raf1- induzierte Lungentumor in Mäusen anzuzielenAfify, Samar January 2007 (has links) (PDF)
The aim of the present study was to design different dosage forms as carrier systems to deliver sorafenib to the lung of BXB-23 transgenic mice using different routes of administration. Three dosage forms were used one of them was an oil-in-water emulsion and the oral route was chosen for this experiment. The other delivery system was a liposome preparation for intratracheal instillation. In this case the oral route was considered as a control experiment. The last dosage form was PLGA microspheres. Before sorafenib administration it was important to develop a HPLC method to assess sorafenib absorption after its administration and to determine its concentrations in mouse serum. The HPLC method allowed sorafenib quantification in small volumes (30 µl) of mouse serum and tissues. The developed HPLC method was validated resulting in satisfactory selectivity, good linearity, good accuracy and precision over the concentration range examined. Sorafenib was successfully incorporated in a fat emulsion (o/w) using a traditional method resulting in a white homogenous emulsion and no particle aggregation was observed. Sorafenib exhibited antitumor activity on the lung adenoma in BXB-23 transgenic mice when administered orally (2 mg sorafenib per mouse) in the emulsion preparation. The determined effect was an approximately 29 % reduction in the tumor area of the adenoma foci and a proliferation reduction. In order to improve the pharmacological effects of sorafenib on the lung adenoma in BXB-23 mice, the targeting of sorafenib directly to the site of action (the lung) was an attractive concept. For this purpose the intratracheal route was used. Since sorafenib administration by instillation required incorporation of sorafenib in a dosage form suitable for its lipophilic nature, a liposome suspension was the second dosage form used. A lyophilization method was employed for sorafenib liposome preparation utilizing dilauroylphosphatidylcholine (DLPC) which is safe and tolerable for the lung. Incorporation of sorafenib in the liposomes did not influence the particle size and its distribution. The sorafenib liposomes showed high encapsulation efficiency, good stability at 4 °C for one month and satisfactory in vitro release properties and inhibited Raf-1 mediated activation of ERK in cell culture assay. In a pharmacokinetic experiment sorafenib loaded liposomes were instilled directly into the lung. The results revealed that a significant level of sorafenib was achieved in the lung tissues after 2 hours and then reduced after 48 h and remained nearly constant for one week. On the other hand, only traces of sorafenib were found in the mice serum up to 48 h. Subsequently, the pharmacological activity of sorafenib (1 mg per mouse) was studied when delivered in a liposomal suspension intratracheally to treat the lung adenoma of BXB-23 mice. The data of this experiment demonstrated that sorafenib intratracheal instillation resulted in a reduction of tumor area of adenoma foci (67 %) and an elevation of the percent of apoptotic cells. In contrast, prolongation of the treatment period did not further enhance sorafenib activity on the lung adenoma. This previous finding suggested a development of multidrug resistance (MDR) by the adenoma foci cells against sorafenib instillation, which was examined by immunohistochemistry staining. The percent of MDR positive cells was higher after two and three weeks sorafenib liposome instillation treatment than that after one week treatment. The last dosage form used for sorafenib was microspheres, which were prepared by emulsion-diffusion-evaporation method using biodegradable PLGA 50:50 resulting in a white lyophilized powder. The system was characterized physicochemically and revealed a good microspheres yield, high encapsulation efficiency, a homogenous particle size distribution and slow in vitro release of sorafenib. The other strategy studied in the present research project was gene delivery to target the lung bearing tumor of BXB-23 mice using a non-viral vector (polyethylenimine). Polyethylenimine (PEI) was used to investigate its efficiency in transfecting lung bearing tumor of BXB-23 mice model and its ability to transfect the adenoma foci cells. LacZ, which encodes Beta-galactosidase was used in the present study as a reporter gene and was complexed with PEI before delivered intravenously. A high LacZ expression in the alveolar region with some expression in the adenoma foci was observed. On contrary, a low LacZ expression in the alveoli and in the adenoma foci was achieved after instillation of the same polyplex intratracheally. / Das Ziel der vorliegenden Dissertation war es, verschiedene galenische Darreichungsformen als Trägersystem für Sorafenib zu entwickeln, um den direkten Transport des Arzneistoffes zum Zielorgan Lunge von BXB-23 transgenen Mäusen zu ermöglichen. Für die verschiedenen Applikationswege wurden drei Darreichungsformen gewählt. Eine Öl-in-Wasser-Emulsion sollte oral verabreicht werden. Für die intratracheale Instillation wurde ein liposomales Präparat gewählt. Die letzte Darreichungsform stellten PLGA Mikrosphären dar. Um die Absorption von Sorafenib nach Administration bestimmen zu können, wurde die Konzentration des Arzneistoffes im Mäuseserum gemessen. Zur Quantifizierung von Sorafenib in einem geringen Volumen Serum und in Gewebe wurde eine HPLC-Methode entwickelt und validiert. Sorafenib wurde erfolgreich in eine Fettemulsion (o/w) mittels einer traditionellen Methode eingearbeitet. Nach oraler Verabreichung der Emulsion (2 mg/Maus) zeigte Sorafenib auf Lungenadenome eine Antitumor-Aktivität, wobei eine Reduktion der Tumorfläche der Adenomfoci um etwa 29 % und eine Reduktion der Proliferation verzeichnet werden konnte. Zur Verbesserung der pharmakologischen Effekte von Sorafenib auf die Lungenadenome in BXB-23 Mäusen zu verbessern, sollte Sorafenib direkt dem Zielorgan Lunge zugeführt werden. Zu diesem Zweck wurde der intratracheale Administrationsweg gewählt. Da die Instillation von Sorafenibaufgrund seiner lipophilen Natur nur durch Einschluß in eine andere Darreichungsform zu erreichen ist, wurde für die zweite Darreichungsform eine Liposomen-Suspension verwendet. Für die Zubereitung von Sorafenib in Liposomen wurde eine Lyophilisierungsmethode unter Verwendung von DPLC erarbeitet. Die Einschluss-Effektivität der Sorafenib-beladenen Liposomen war hoch und zeigte bei 4°C eine gute Stabilität für einen Monat. Die erzielten Effekte bei der in vitro Freisetzung und die Hemmung der von Raf1-induzierten Aktivierung von ERK in Zellkulturexperimenten lieferten zufrieden stellende Ergebnisse. In einem pharmakokinetischen Experiment wurden mit Sorafenib beladenen Liposomen direkt in die Lunge appliziert. Die Ergebnisse zeigten, dass nach 2 h eine signifikante Konzentration von Sorafenib im Lungengewebe erreicht wurde. Nach 48 h nahm diese Konzentration ab und blieb dann für eine Woche fast konstant. Andererseits wurden bis zu 48 h nach Gabe des Arzneistoffes nur Spuren von Sorafenib im Mäuseserum gefunden. Folglich wurde die pharmakologische Aktivität von Sorafenib (1 mg/Maus) bei intratrachealer Verabreichung in einer liposomalen Suspension untersucht. Die Ergebnisse zeigten, dass die intratracheale Gabe von Sorafenib eine Reduktion der Tumorfläche der Adenomfoci um 67 % bewirkte, sowie eine Erhöhung des prozentualen Anteils apoptotischer Zellen. Eine Verlängerung der Behandlungszeit zeigte keine zusätzliche Verbesserung der Effekte. Dies lies vermuten, dass hier eine Entwicklung von Multidrug-Resistenz in den Adenomfocizellen gegenüber der Instillation von Sorafenib erfolgte. Dies wurde in immunochemischen Anfärbe-Experimenten untersucht. Die Prozentzahl von MDR-positiven Zellen war nach zwei und drei Wochen Instillation von Sorafenib-Liposomen höher als nach einer Woche. Die letzte verwendete Darreichungsform für Sorafenib waren Mikrosphären, die durch Emulsions-Diffusions-Evaporations-Methoden in biologisch abbaubarem PLGA 50:50 hergestellt wurden. Dies ergab ein weißes, lyophilisiertes Pulver. Das System wurde physiochemisch charakterisiert und ergab ein gutes Mikrosphären-Ergebnis, hohe Einschluss-Effektivität, eine homogene Verteilung der Partikelgrößen und eine langsame in vitro Freisetzung von Sorafenib. Die andere untersuchte Strategie war Gen-Delivery, um den Lungentumor von BXB-23 Mäusen mittels eines nicht-viralen Vektors (Polyethylenimin, PEI) anzuzielen. PEI wurde verwendet, um die Effektivität der Transfektion des Lungentumors zu untersuchen und seine Fähigkeit, die Adenomfocizellen zu transfizieren. LacZ, das Beta-Galactosidase codiert, diente bei diesem Experiment als Reportergen und wurde vor intravenöser Gabe mit PEI komplexiert. Eine hohe LacZ-Expression in der alveolaren Region, aber nur eine geringe Expression in den Adenomfoci wurde beobachtet. Im Gegensatz dazu wurde eine geringe Expression von LacZ in den Alveolen und den Adenomfoci nach intratrachealer Instillation des gleichen Polyplex erreicht.
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