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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
31

Tumour development in Raf-driven cancer mouse models / Tumor-Entwicklung in Raf-transgenen Mausmodellen

Lütkenhaus, Katharina January 2010 (has links) (PDF)
Metastasis is the cause of death in 90% of cancer-related deaths in men. Melanoma and Non-Small-Cell Lung Cancer (NSCLC) are both tumour types with poor prognosis, lacking appropriate therapeutic possibilities, not least because of their high rate of metastasis. Thus understanding the process of metastasis might unravel therapeutic targets for developing further therapeutic strategies. The generation of a transgenic mouse model expressing B-RafV600E in melanocytes, a mutation that is found in about 60% of all melanoma, would result in an ideal tool to study melanoma progression and metastasis. In this work, a doxycycline-inducible system was constructed for expression of B-RafV600E and transgenic animals were generated, but the expression system has to be improved, since this strategy didn’t give rise to any viable, transgene carrying mice. Furthermore, since it was shown in the work of others that the metastatic behavior of tumour cell lines could be reversed by an embryonic microenvironment and the influence of a tumourigenic microenvironment on melanocytes lead to the acquisition of tumour cell-like characteristics, the question arose, whether B-Raf is as important in melanocyte development as it is in melanoma progression. In this work, the embryonal melanocyte development in B-Raf-deficient and wildtype mouse embryos was examined and there were no differences observed in the localization and number of neural crest stem cells as well as in the localization of the dopachrome-tautomerase positive melanoblasts in the embryos and in cultured neural tube explants. The expression of oncogenic C-Raf in lung epithelial cells has yielded a model for NSCLC giving rise to adenomas lacking spontaneous progression or metastasis. The co-expression of c-Myc in the same cells accelerates the tumour development and gives rise to liver and lymphnode metastases. The expression of c-Myc alone in lung epithelial cells leads to late tumour development with incomplete penetrance. A mutation screen in this work resulted in the observation that a secondary mutation in KRas or LKB1 is necessary for tumour formation in the c-Myc single transgenic animals and suggested metastasis as an early event, since the corresponding metastases of the mutation-prone primary lung tumours were negative for the observed mutations. Furthermore, in this work it was shown that the expression of chicken c-Myc in a non-metastatic NSCLC cell line leads to metastatic clones, showing that c-Myc is sufficient to induce metastasis. Additionally a panel of metastasis markers was identified, that might serve as diagnostic markers in the future. / In 90% der Todesfälle aufgrund von Krebserkrankungen sind Metastasen für den Tod des Patienten verantwortlich. Sowohl Melanom, als auch nicht-kleinzelliges Lungenkarzinom (Non-Small Cell Lung Cancer, NSCLC) sind beides Tumortypen, die eine schlechte Prognose haben und für die sich wenige Therapiemöglichkeiten bieten, nicht zuletzt aufgrund ihrer häufigen Metastasierung. Somit würde ein besseres Verständnis des Metastasierungsprozesses neue therapeutische Angriffspunkte aufdecken und damit die Möglichkeit zur Entwicklung neuer Therapieansätze bieten. Die Entwicklung eines transgenen Mausmodells, in dem B-RafV600E, eine Mutation die man in 60% der Melanompatienten findet, melanocyten-spezifisch exprimiert wird, würde ein geeignetes Werkzeug ergeben, um die Entstehung und die Metastasierung von Melanom zu untersuchen. Im Rahmen dieser Arbeit wurde ein Konstrukt zur Doxycyclin-abhängingen Expression von B-RafV600E erzeugt und mit diesem wurden transgene Tiere generiert. Da dieser Ansatz nicht zu lebensfähigen, das Transgen tragenden Linien führte, muss das Expressionssystem weiter verbessert werden. Da in der Arbeit von anderen gezeigt wurde, dass das metastasierende Verhalten von Tumor-Zelllinien durch eine embryonale Mikroumgebung aufgehoben werden konnte, und dass der Einfluss einer tumorähnlichen Mikroumgebung in Melanocyten zur Erlangung von Tumorzell-Charakteristika führte, kam die Frage auf, ob B-Raf eine ähnlich wichtige Rolle in der Entwicklung von Melanocyten wie in der Entstehung von Melanomen spielt. Im Rahmen dieser Arbeit wurde die embryonale Melanocytenentwicklung in B-Raf-defizienten sowie in wildtypischen Mausembryonen untersucht. Es konnten keine Unterschiede in der Lokalisation und Anzahl von Stammzellen des Neuralrohres und in der Lokalisation von Dopachrome-tautomerase positiven Melanoblasten in den Embryonen und in kultivierten Explantaten des Neuralrohres festgestellt werden. Die Expression von oncogenem C-Raf in Lungenepithelzellen von Mäusen ist ein Modell für NSCLC und führt zur Ausbildung von Adenomen ohne spontane Weiterentwicklung oder Metastasen. Die Koexpression von C-Raf mit c-Myc in denselben Zellen beschleunigt die Entwicklung von Tumoren und führt zu Metastasen in Leber und Lymphknoten. Die Expression von c-Myc alleine in Lungenepithelzellen führt zu einer verspäteten Entwicklung von Tumoren mit nicht vollständiger Penetranz. Ein Screening für Mutation im Rahmen dieser Arbeit führte zu der Beobachtung, dass Sekundärmutationen in KRas oder LKB1 für die Tumorentwicklung in den c-Myc transgenen Tieren notwendig sind und dass die Metastasierung ein frühes Ereignis zu seien scheint, da die zugehörigen Metastasen in Leber und Lymphknoten im Gegensatz zum Primärtumor in der Lunge keine Mutationen in diesen Genen trugen. Desweiteren wurde in dieser Arbeit gezeigt, dass die Expression von avianem c-Myc in einer nicht-metastasierenden NSCLC Zelllinie zu metastasierenden Klonen führte, was zeigt, dass c-Myc ausreichend ist um Metastasierung auszulösen. Zusätzlich wurde eine Reihe von Markern für Metastasen identifiziert, die in Zukunft als diagnostische Marker Verwendung finden könnten.
32

Epigenetic switch induced by MYC in Non-Small-Cell Lung Cancer / Durch MYC induzierte epigenetische Veränderung im Nichtkleinzelligen Bronchialkarzinom

Cardoso e Castro, Inês Sofia January 2012 (has links) (PDF)
Non–Small-Cell Lung Cancer (NSCLC) is the most frequent human lung cancer and a major cause of death due to its high rate of metastasis1. These facts emphasize the urgent need for the investigation of new targets for anti-metastatic therapy. Up to now a number of genes and gene products have been identified that positively or negatively affect the probability of established human tumor cell lines to metastasize2. Previously, together with the group of Professor Ulf Rapp, we have described the first conditional mouse model for metastasis of NSCLC and identified a gene, c-MYC, that is able to orchestrate all steps of this process. We could identify potential markers for detection of metastasis and highlighted GATA4, which is exclusively expressed during lung development, as a target for future therapeutic intervention2. However, the mechanism underlying this metastatic conversion remained to be identified, and was therefore the focus of the present work. Here, GATA4 is identified as a MYC target in the development of metastasis and epigenetic alterations at the GATA4 promoter level are shown after MYC expression in NSCLC in vivo and in vitro. Such alterations include site-specific demethylation that accompanies the displacement of the MYC-associated zinc finger protein (MAZ) from the GATA4 promoter, which leads to GATA4 expression. Histone modification analysis of the GATA4 promoter revealed a switch from repressive histone marks to active histone marks after MYC binding, which corresponds to active GATA4 expression. This work identifies a novel epigenetic mechanism by which MYC activates GATA4 leading to metastasis in NSCLC, suggesting novel potential targets for the development of anti-metastatic therapy. / Das nichtkleinzellige Bronchialkarzinom (Non-Small-Cell Lung Cancer/NSCLC) ist die häufigste Form des Lungenkrebs und ist aufgrund seiner hohen Metastasierungsrate für die meisten krebsbedingten Todesfälle verantwortlich1. Bisher konnte eine Vielzahl von Genen und Genprodukten identifiziert werden, die einen Einfluss auf das Metastasierungspotenzial von humanen Tumorzelllinien in vitro haben2. Vor kurzem gelang es uns unter der Leitung von Prof. Ulf R. Rapp das erste konditionelle Modell der Metastasierung von NSCLC zu beschreiben. Wir identifizierten u.a. das Gen c-MYC, welches in der Lage ist, in alle Schritte des Prozesses manipulierend einzugreifen. Im Rahmen dieser Arbeit konnten wir potentielle Marker zur Detektion der Metastasierung identifizieren. Unser Hauptaugenmerk lag dabei auf GATA4, ein Gen, das nur während der Lungenentwicklung exprimiert wird. Als potentielles Ziel für spätere therapeutische Eingriffe erscheint es daher besonders geeignet2. Die der Metastasierung zugrunde liegenden Mechanismen sind bisher weitestgehend ungeklärt und stellen daher einen Fokus dieser Arbeit dar. Im Rahmen der vorliegenden Arbeit wurde GATA4 als ein von MYC regulierter Faktor identifiziert, der an der Entwicklung von Metastasen beteiligt ist. Epigenetische Veränderungen am GATA4-Promotor nach der Expression von MYC konnten sowohl in vitro als auch in vivo nachgewiesen werden. Die Veränderungen beinhalten ortsspezifische Methylierungen, die einhergehen mit der Dislokation des MYC-assoziierten zinc finger protein (MAZ), die zur Expression von GATA4 führt. Die Analyse der Histon-Modifikationen am GATA4-Promotor ergab, dass nach der Bindung von MYC ein Wechsel von reprimierenden Histon-Markierungen zu aktiven stattfindet, der mit der GATA4-Expression korreliert. Im Rahmen dieser Arbeit konnte also ein neuartiger epigenetischer Mechanismus identifiziert werden, mit dem MYC GATA4 aktiviert und auf diese Weise zur Metastasenbildung bei NSCLC führt. Gleichzeitig wurden dadurch neue potentielle Zielstrukturen für die Entwicklung von anti-metastasierenden Therapeutika gefunden.
33

Influence of oncolytic vaccinia viruses on metastases of human and murine tumors / Einfluss von onkolytischen Vaccinia Viren auf Metastasen von humanen und murinen Tumoren

Meir [geb. Rother], Juliane January 2015 (has links) (PDF)
Cancer is one of the leading causes of death. 90% of all deaths are caused by the effects of metastases. It is of major importance to successfully treat the primary tumor and metastases. Tumors and metastases often differ in their properties and therefore, treatment is not always successful. In contrast, those therapeutic agents can even promote formation and growth of metastases. Hence, it is indispensable to find treatment options for metastatic disease. One promising candidate represents the oncolytic virus therapy with vaccinia viruses. The aim of this work was to analyze two cell lines regarding their metastatic abilities and to investigate whether oncolytic vaccinia viruses are useful therapy options. The cell lines used were the human cervical cancer cell line C33A implanted into immune-compromised mice and the murine melanoma cell line B16F10, implanted into immune-competent mice. The initial point of the investigations was the observation of enlarged lumbar und renal lymph nodes in C33A tumor-bearing mice 35 days post implantation of C33A cells subcutaneously into immune-compromised nude mice. Subsequently, the presence of human cells in enlarged lymph nodes was demonstrated by RT-PCR. To facilitate the monitoring of cancer cell spreading, the gene encoding for RFP was inserted into the genome of C33A cells. In cell culture experiments, it was possible to demonstrate that this insertion did not negatively affect the susceptibility of the cells to virus infection, replication and virus-mediated cell lysis. The analysis of the metastatic process in a xenografted mouse model revealed the continuous progression of lumbar (LN) and renal (RN) lymph node metastasis after C33A-RFP tumor cell implantation. The lymph node volume and the amount of RFP-positive LNs and RNs was increasing from week to week in accordance with the gain of the primary tumor volume. Moreover, the metastatic spread of cancer cells in lymph vessels between lumbar and renal lymph nodes was visualized. Additionally, the haematogenous way of cancer cell migration was demonstrated by RFP positive cancer cells in blood vessels. The haematogenous route of spreading was confirmed by detecting micrometastases in lungs of tumor bearing mice. The next step was to investigate whether the recombinant oncolytic vaccinia virus GLV-1h68 is a suitable candidate to cure the primary tumor and metastases. Therefore, GLV-1h68 was systemically injected into C33A-RFP tumor bearing mice 21 days after tumor cell implantation. It was demonstrated that the volume of the primary tumor was drastically reduced, and the volume and the amount of RFP positive lumbar and renal lymph nodes were significantly decreasing compared to the untreated control group. Subsequently, this process was analyzed further by investigating the colonization pattern in the C33A-RFP model. It was shown that first the primary tumor was colonized with highest detectable virus levels, followed by LN and RN lymph nodes. Histological analyses revealed the proliferative status of tumor cells in the tumor and lymph nodes, the amount of different immune cell populations and the vascular permeability in primary tumors and lymph nodes having an influence on the colonization pattern of the virus. Whereby, the vascular permeability seems to have a crucial impact on the preferential colonization of tumors compared to lymph node metastases in this tumor model. C33A turned out to be a useful model to study the formation and therapy of metastases. However, a metastatic model in which the influence of the immune system on tumors and especially on tumor therapy can be analyzed would be preferable. Therefore, the aim of the second part was to establish a syngeneic metastatic mouse model. Accordingly, the murine melanoma cell line B16F10 was analyzed in immunocompetent mice. First, the highly attenuated GLV 1h68 virus was compared to its parental strain LIVP 1.1.1 concerning infection, replication and cell lysis efficacy in cell culture. LIVP 1.1.1 was more efficient than GLV-1h68 and was subsequently used for following mouse studies. Comparative studies were performed, comparing two different implantation sites of the tumor cells, subcutaneously and footpad, and two different mouse strains, FoxN1 nude and C57BL/6 mice. Implantation into the footpad led to a higher metastatic burden in lymph nodes compared to the subcutaneous implantation site. Finally, the model of choice was the implantation of B16F10 into the footpad of immune-competent C57BL/6 mice. Furthermore, it was inevitable to deliver the virus as efficient as possible to the tumor and metastases. Comparison of two different injection routes, intravenously and intratumorally, revealed, that the optimal injection route was intratumorally. In summary, the murine B16F10 model is a promising model to study the effects of the immune system on vaccinia virus mediated therapy of primary tumors and metastases. / Weltweit ist Krebs eine der häufigsten Todesursachen des Menschen. Allerdings wird angenommen, dass ca. 90 % dieser Todesfälle nicht auf den Primärtumor zurückzuführen sind, sondern durch den direkten und indirekten Einfluss von Metastasen verursacht werden. Deshalb ist es wichtig, eine Therapieform zu wählen, die sowohl den Primärtumor als auch Metastasen bekämpft. Bei den derzeit eingesetzten Behandlungsmethoden für Metastasen handelt es sich weitestgehend um die gleichen Therapieformen die auch zur Bekämpfung des Primärtumors eingesetzt werden. Allerdings unterscheiden sich Primärtumor und Metastasen häufig in ihren Eigenschaften, weshalb die Therapie oft keinen Erfolg bei Metastasen zeigt und im schlimmsten Fall sogar deren Neubildung und Wachstum fördern kann. Deswegen ist es von immenser Bedeutung, neue Therapieformen zu entwickeln, die speziell auch auf die Wirksamkeit gegen Metastasen zugeschnitten sind. Eine vielversprechende Möglichkeit hierfür stellt die onkolytische Virustherapie dar. Das Hauptziel dieser Arbeit war es, zwei verschiedene Tumorzelllinien hinsichtlich ihrer metastatischen Fähigkeiten zu untersuchen und anschließend zu überprüfen, ob onkolytische Vaccinia Viren zur Therapie dieser Metastasen beitragen können. Bei den hierfür untersuchten Zelllinien handelte es sich um die menschliche Zervixkarzinomzelllinie C33A, implantiert in immunsupprimierte Mäuse und um die murine Melanomzelllinie B16F10, implantiert in immunkompetente Mäuse. Ausgangspunkt der Untersuchungen im ersten Teil der Arbeit, bildete die Beobachtung, dass nach der subkutanen Implantation von C33A-Zellen in die abdominale Flanke von immunsupprimierten Nacktmäusen die lumbalen und renalen Lymphknoten der tumortragenden Mäuse vergrößert waren. Die Untersuchung dieser vergrößerten Lymphknoten mittels RT-PCR, unter zu Hilfenahme von spezifischen Primern für humanes β-Aktin, wies tatsächlich humane Zellen in allen lumbalen und der Hälfte der renalen Lymphknoten nach. Darum sollte im nächsten Schritt das metastatische Verhalten dieser Zellen genauer untersucht werden. Hierfür wurde mittels lentiviraler Transduktion, das für das rotfluoreszierende Protein kodierende Gen in C33A-Zellen integriert. In Zellkulturexperimenten konnte nachgewiesen werden, dass die Insertion sich nicht negativ auf die Infektion, Replikation und Zelllyse der Viren auswirkte. Anschließende Mausexperimente zeigten den Verlauf der Metastasierung der lumbalen und renalen Lymphknoten. Sowohl das Volumen als auch die Anzahl an RFP positiven Lymphknoten nahm nach Implantation von Woche zu Woche zu und korrelierte mit der Zunahme des Primärtumorvolumens. Darüber hinaus konnte die Migration der Tumorzellen in Lymphgefäßen zwischen dem lumbalen und renalem Lymphknotenpaar mit Hilfe der Fluoreszenzmikroskopie sichtbar gemacht werden. Zusätzlich konnte die Metastasierung über die Blutbahn nachgewiesen werden, da sich RFP positive Zellen in dem Blutgefäß neben dem Lymphgefäß, das die lumbalen und renalen Lymphknoten miteinander verbindet, befanden. Die hämatogene Verbreitung wurde auch dadurch bestätigt, dass in den Lungen der tumortragenden Mäuse Mikrometastasen detektiert werden konnten. Im nächsten Schritt wurde untersucht, ob das rekombinante Vaccinia Virus GLV-1h68 in der Lage ist, nicht nur den primären Tumor zu bekämpfen, sondern auch Metastasen. Dafür wurde tumortragenden Mäusen systemisch eine einzelne Dosis GLV-1h68 21 Tage nach Tumorzellimplantation injiziert. Daraufhin reduzierte sich nicht nur das Volumen des Primärtumors innerhalb von weiteren 21 Tagen auf die Ausgangsgröße, sondern auch das Volumen und die Anzahl der RFP positiven lumbalen und renalen Lymphknoten nahm ab, im Vergleich zur unbehandelten Kontrolle. Die Analyse der Kolonisierungsdynamik von Primärtumor und Metastasen durch GLV 1h68 zeigte, dass zuerst der Primärtumor kolonisiert wurde, gefolgt von LN und RN. Des Weiteren war der virale Titer in Tumoren zu jedem Zeitpunkt höher als in den metastasierten Lymphknoten. Histologische Untersuchungen des tumorösen Gewebes zeigten, dass der proliferative Status der Tumorzellen, die Menge verschiedener Immunzellpopulationen und die vaskuläre Permeabilität einen Einfluss auf die Kolonisierung durch GLV-1h68 haben. Dabei wird angenommen, dass vor allem die vaskuläre Permeabilität den größten Einfluss auf die Kolonisierungsreihenfolge hat. Zusammenfassend kann gesagt werden, dass C33A ein hilfreiches Model ist, um die Bildung von Metastasen sowie die onkolytische Virustherapie dieser in einem immunsupprimierten Model zu untersuchen. Aus klinischer Sicht allerdings wäre es wünschenswert, ein Model zu haben, in dem auch der Einfluss des Immunsystems auf die Tumortherapie untersucht werden kann. Deswegen war das Ziel im zweiten Teil der Arbeit die murine Melanomazelllinie B16F10 im immunkompetenten Mausmodell als metastatisches System zu etablieren. Als erstes wurde in Zellkulturexperimenten überprüft, wie geeignet GLV-1h68 ist, um die murinen Zellen zu infizieren, in ihnen zu replizieren und sie anschließend zu lysieren und mit dem parentalen Virus LIVP 1.1.1 verglichen. Dabei stellte sich heraus, dass LIVP 1.1.1 effizienter und geeigneter ist als GLV-1h68. Deswegen wurde in weiteren Versuchen das parentale Virus LIVP 1.1.1 verwendet. Bevor diese Experimente durchgeführt wurden, wurden Studien durchgeführt, bei denen 2 verschiedene Implantationsstellen, subkutan und in die Fußsohle, und 2 verschiedene Mausstämme, FoxN1 nude und C57BL/6, verglichen wurden. Dabei stellte sich heraus, dass nach Implantation in die Fußsohle mehr Lymphknotenmetastasen entstanden als nach subkutaner Implantation. Im weiteren Verlauf wurde die Implantation von B16F10 Zellen in die Fußsohle von C57BL/6 Mäusen bevorzugt, um eine verlässliches Metastasenmodel zu generieren. Im Folgenden wurden zwei verschiedene Injektionswege untersucht, intravenös und intratumoral, wobei sich die intratumoral Injektion als geeigneter erwies, um effizient so viel Virus wie möglich in Tumore und Metastasen zu bringen. Generell handelt es sich hierbei um ein geeignetes Model, um die Wirkungen des Immunsystems auf Vaccinia Virus vermittelte Therapie von Primärtumor und Lymphknotenmetastasen zu untersuchen.
34

Modulation des metastatischen Potentials einer humanen Fibrosarkomzelllinie durch Ko-Expression von TIMP-1 (tissue inhibitor of metalloproteinases-1) und einer löslichen Form des Urokinase-Rezeptors

Nagel, Jutta Maria. January 2004 (has links) (PDF)
München, Techn. Univ., Diss., 2004.
35

Claudina-3 e Claudina- 4, potenciais marcadores de agressividade no carcinoma endometrial Tipo I

Tonon, Ângela Favorito Santarém [UNESP] 12 August 2013 (has links) (PDF)
Made available in DSpace on 2014-08-13T14:50:47Z (GMT). No. of bitstreams: 0 Previous issue date: 2013-08-12Bitstream added on 2014-08-13T18:00:34Z : No. of bitstreams: 1 000758246.pdf: 1669883 bytes, checksum: ace7f36bd830a8ef0026e86e6c1f9acb (MD5) / O Carcinoma de Endométrio é a neoplasia epitelial maligna que acomete mulheres no pré, pós e peri -menopausa. Segundo diferenças endócrinas, metabólicas, fatores de risco e morfologia é classificado em dois grandes grupos: Tipo I (endometrióide) e Tipo II (não endometrióide). O Tipo I perfaz 90 % dos carcinomas de endométrio e sua patogenia esta ligada a exposição excessiva ao estrógeno. O Tipo II é incomum, com fatores predisponentes menos conhecidos. O sintoma mais relevante do carcinoma de endométrio é o sangramento pós-menopausa. Seu diagnóstico é feito pela comprovação histológica, associada aos exames de imagem e laboratoriais. Seu tratamento é fundamentalmente cirúrgico. O fator prognóstico mais importante é a presença ou ausência de metástase nos linfonodos regionais. Atualmente, buscam-se marcadores biológicos e teciduais que indiquem pior prognóstico. Este trabalho verificou a imunoexpressão da claudina-3 (CLDN3) e claudina-4 (CLDN4) nos carcinomas de endométrio Tipo I e Tipo II, relacionando-as com endométrio proliferativo e atrófico, aspectos clínicos, anatomopatológicos, perfil hormonal, índice de proliferação celular e expressão da p53, na tentativa de estabelecer a importância destas proteínas na progressão e agressividade tumoral e o seu valor prognóstico. Foram estudados 79 casos de carcinoma de endométrio e comparados com 74 endométrios normais. Avaliou-se a imunoexpressão das CLDNs 3 e 4, receptor estrogênico, receptor de progesterona, índice de proliferação celular (Ki67) e p53, pela técnica de imunoistoquímica. Observou-se que o padrão de coloração da membrana para CLDN3 se mostrou difuso nos carcinomas, quando comparado com os endométrios normais que exibiu padrão focal. O número de células marcadas com CLDN3 estava diminuído nos carcinomas Tipo I, porém com intensidade aumentada. Nesta análise foi possível verificar que ... / Carcinoma of the Endometrium is a malignant epithelial tumor which affects pre, peri and post-menopausal women. It is classified into two major groups, according to endocrine, metabolic risk factors and morphological differences: Type I (endometrioid) and Type II (non-endometrioid). Type I accounts for 90% of all endometrial carcinomas and its pathogenesis is linked to excessive estrogen exposure. The Type II is less common, with poorly defined predisposing factors. The most important symptom of endometrial carcinoma is postmenopausal bleeding. Diagnosis is achieved through histological evidence, in association with imaging and laboratorial exams. Treatment is primarily surgical. The most important prognostic factor is the presence or absence of metastases in regional lymph nodes. Bio and tissue markers that indicate worse prognosis are the focus of current research. This study examined the immunoexpression of claudin-3 (CLDN3) and claudin-4 (CLDN4) in endometrial carcinomas Type I and Type II, and their relation to proliferative and atrophic endometrium, clinical and pathological features, hormonal status, proliferation index and p53 expression, in an attempt to establish the importance of these proteins in tumor progression and aggressiveness and their prognostic value. Seventy-nine cases of endometrial carcinoma were studied and compared with 74 normal endometria. The immunoexpression of CLDNs 3 and 4, estrogen receptor, progesterone receptor, cell proliferation index (Ki67) and p53 were all evaluated by immunohistochemistry. Observation verified that the pattern of membrane staining for CLDN3 was diffuse in carcinomas compared with normal endometrium which presented a focal pattern. The number of cells stained with CLDN3 was lower in Type I carcinomas, while staining intensity was greater. Analysis verified that 25% of cases with high expression of CLDN4 and Ki-67 developed metastasis, while 33% of cases with greater CLDN4 staining ...
36

Análise da ocorrência de metástase intraocular e pulmonar em cadelas portadoras de carcinoma mamário e correlação com mutação e expressão de E-caderina / Analysis of intraocular and pulmonary metastasis in female dogs suffering from mammary carcinoma and correlation with E-cadherin mutation and expression

Pardini, Luciana Moura Campos [UNESP] 03 June 2015 (has links) (PDF)
Made available in DSpace on 2016-05-17T16:51:10Z (GMT). No. of bitstreams: 0 Previous issue date: 2015-06-03. Added 1 bitstream(s) on 2016-05-17T16:54:43Z : No. of bitstreams: 1 000858239.pdf: 1069135 bytes, checksum: cd8c808bc197da8ee3c265e8f3ff186a (MD5) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Introdução: A E-caderina é uma proteína transmembranosa, codificada pelo gene CDH1, que desempenha um papel importante na adesão intercelular de tecidos epiteliais. A perda da função ou expressão diminuída de E-caderina pode implicar em metástases e progressão do câncer. Nas neoplasias mamárias, metástases pulmonares ocorrem com maior frequência, porém as metástases oculares, especialmente na coroide, são relativamente comuns, mas pouco diagnosticadas clinicamente. Metodologia: Vinte e oito cadelas de diferentes raças, não-castradas, com idade superior a 5 anos, com diagnóstico de carcinoma mamário ao exame citopatológico, sem metástases pulmonares e/ou oculares, foram submetidas à mastectomia radical e ovariosalpingohisterectomia (OSH), sendo reavaliadas após três e seis meses de pós-operatório. O padrão de expressão relativa do gene CDH1 em tecidos tumorais e normais, foi avaliado pelo sistema TaqMan Universal PCR Master Mix; o padrão de metilação foi realizado utilizando-se a técnica de MSP-PCR; o sequenciamento do DNA, análise das mutações e polimorfismos foram realizados a partir do sangue periférico, utilizando-se a técnica de reação de terminação em cadeia pelo kit BigDye Terminator v.3 Cycle Sequencing. Análises imunohistoquímicas foram realizadas para avaliar a expressão da E-caderina. Resultados: Nenhuma das 28 cadelas estudadas apresentou metástase ocular ou pulmonar com três ou seis meses de pós-operatório. Em 57,1% dos casos uma menor expressão relativa do gene CDH1 foi identificada. Em 100% dos casos verificou-se o status metilado para o gene CDH1, reafirmando a hipótese de que células não-tumorais podem contribuir para estes resultados. Em 46,5% dos casos identificou-se expressão reduzida de E-caderina pela técnica de imunohistoquímica. Foram identificados 3 histotipos tumorais: carcinoma complexo, tubulopapilífero e carcinoma em tumor misto. Em 100% dos casos de carcinoma... / Introduction: E-cadherin is a transmembrane protein, encoded by CDH1 gene, that has an important role in intercellular adhesion of epithelial tissues. Loss of function or decreased expression of E-cadherin may lead to cancer progression and metastasis. In mammary epithelial neoplasms, lung metastases occur more frequently, but the ocular metastasis, especially in the choroid, are relatively common but underdiagnosed clinically. Methods: Twenty-eight dogs of different breeds, non-castrated, older than five years, diagnosed with breast cancer by cytopathological examination, without pulmonary and/or ocular metastasis, have undergone to radical mastectomy and ovariosalpingohisterectomy (OSH), and re-evaluated after three and six months postoperatively. The pattern of relative expression of CDH1 gene in normal and tumor tissues was assessed by TaqMan Universal PCR Master Mix system; the pattern of methylation was performed using MSP-PCR; DNA sequencing analysis of mutations and polymorphisms were performed from peripheral blood using the termination chain reaction technique with BigDye Terminator v.3 Cycle Sequencing kit. Immunohistochemical analyzes were performed to evaluate the expression of E-cadherin. Results: None of the 28 dogs studied had ocular or pulmonary metastasis with 3 or 6 months postoperatively. In 57,1% of cases a decreased relative expression of CDH1 gene was identified. In 100% of cases there was methylated status for the CDH1 gene, confirming the hypothesis that non-tumor cells can contribute to these results. In 46,5% of the cases reduced E-cadherin expression by immunohistochemistry was identified. Three tumor histotypes were identified: complex carcinoma, tubulopapillary, and carcinoma in mixed tumor. In 100% of cases of tubulopapillary carcinoma was identified a reduced gene expression of CDH1 by both qPCR and by immunohistochemistry. The sequencing of the gene, 6 animals (21,4%) had silent mutations in exons 3, 7 ...
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Padronização da pesquisa de linfonodos sentinelas em estômago por métodos combinados

Alves, José Roberto January 2012 (has links)
Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas, Pós-Graduação em Ciências da Cirurgia, Campinas, 2012. / Made available in DSpace on 2017-08-28T16:25:04Z (GMT). No. of bitstreams: 1 347758.pdf: 4105947 bytes, checksum: af11b64c91070282e755c061d50774e9 (MD5) Previous issue date: 2012 / Introdução - Com os estudos de Gould et al. (1960), Cabanas (1977) e Morton et al. (1992), estabeleceu-se o conceito da pesquisa do linfonodo sentinela. Esse se baseia na teoria de que ao identificar a presença ou ausência de metástase no primeiro linfonodo que recebe a drenagem linfática a partir do tumor (sentinela), poderia representar o estado de acometimento dos outros linfonodos. Isto evitaria a realização desnecessária de linfadenectomias. Com o passar dos anos, foi consagrada para ser aplicada em casos de melanoma e câncer de mama. Nesta última década, tenta-se estender os princípios da utilização da pesquisa de linfonodo sentinela para os cânceres do aparelho digestivo. Entretanto, no caso do estômago, existem algumas dificuldades, como: presença de sistema de drenagem linfática multidirecional, ocorrência de metástases saltatórias e identificação de mais de um linfonodo sentinela por indivíduo. Objetivo - Criar e padronizar um modelo animal para o treinamento de pesquisa de linfonodos sentinelas em estômago. Método - Trinta e dois coelhos, saudáveis, foram submetidos à anestesia exclusivamente intramuscular. Por meio de laparotomia, foi injetado na subserosa da parede anterior do corpo gástrico, 0,1 ml de fitato marcado com tecnécio-99m (0,2 mCi), em seguida pelo mesmo orifício, de 0,2 ml de Azul Patente V® 2,5%. A cavidade abdominal foi avaliada, in vivo , para pesquisa de suspeitas de linfonodos azuis (corados em azul) e com detector manual de radiação gamma aos 5, 10 e 20 minutos para detecção de suspeitas de linfonodos radioativos (radioatividade identificada superior a 10X o valor apresentado pelo fundo). Após 20 minutos, realizou-se ressecção e exérese total do estômago, baço e suspeitas de linfonodos, para posterior avaliação da radioatividade ex vivo . A seguir, encaminharam-se as suspeitas de linfonodos para estudo histológico para identificação de tecido linfóide. Resultados - Foram identificados linfonodos em 30 coelhos (93,75%) com média de 2,2 por animal. Das 90 suspeitas de linfonodos detectadas, em 70 casos (77,77%) obteve-se confirmação histológica para tecido linfóide. Dessas, a maioria foi identificada e localizada na região entre o esôfago e o fundo gástrico durante a avaliação in vivo aos 5 minutos. Dois coelhos faleceram durante os experimentos (Taxa de mortalidade = 6,25%). Conclusão - O modelo experimental em coelhos para pesquisa de linfonodos sentinelas em estômago por métodos combinados foi factível, de fácil execução e baixa mortalidade, podendo ser usado para treinamento.<br> / Abstract : Introduction - The concept of sentinel lymph node was established by the studies of Gould et al. (1960), Cabanas (1977) and Morton et al. (1992). It is based on the theory that, whenever the presence or absence of metastasis is identified in the first lymph node that receives the lymphatic drainage from the tumor (sentinel) the status of involvement of other lymph nodes might be infered. This could avoid the performance of unnecessary lymphadenectomies. Over the years, its use was consecrated by its application in melanoma and breast cancer. In the last decade, attempts have been made to extend the principles of sentinel lymph node investigation to cancers of the digestive tract. In the case of stomach cancer, additional difficulties were found, such as multiple and aberrant lymphatic routes, the occurrence of skip metastasis and the possible identification of more than one sentinel lymph node in the same patient. Aim - To develop and evaluate an animal model for training sentinel lymph node navigation in the stomach. Methods - Thirtytwo healthy rabbits, were prepped and given intramuscular anesthesia. Through a formal laparotomy, they received a subserosal injection of 0.1 ml of phytate labeled with technetium-99m (0.2 mCi) in the anterior wall of the gastric corpus, followed by 0.2 ml of Blue Patent ® V 2.5%, through the same puncture site. Suspicious lymph nodes were searched in-vivo at 5, 10 and 20 minutes, both visually (Blue Patent stained lymph nodes) and with a manual gamma radiation detector (to detect suspected radioactive lymph nodes, displaying radioactivity levels over 10X the value displayed by the background). En-block resection of the stomach, spleen, visible limph nodes and local fat tissue was then performed and the specimen was assessed "ex vivo" for radioactivity. Suspected lymph nodes were sent for histological study to evaluate the presence of lymphoid tissue. Results Radiolabeled or stained lymph nodes were identified in 30 rabbits (93.75%) with an average of 2.2 specimens per animal; of the 90 suspicious lymph nodes detected, histology confirmed lymphoid tissue in 70 cases (77.77%). Most lymph nodes were identified at the 5-minute in-vivo evaluation and their most common location was found to be in the region between the esophagus and the gastric fundus. Two rabbits died during the procedure resulting in a 6.25% mortality. Conclusion - The rabbit model proved adequate for training in sentinel node navigation in the stomach by combined methods (dye and radiocolloid) being easy to execute and associated with low mortality.
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Neoplasias mamárias de cadelas: expressão gênica e proteica da via Wnt/b-catenina, sua associação com a transição epitélio-mesênquima e prognóstico

Terra, Erika Maria [UNESP] 30 May 2014 (has links) (PDF)
Made available in DSpace on 2015-04-09T12:28:18Z (GMT). No. of bitstreams: 0 Previous issue date: 2014-05-30Bitstream added on 2015-04-09T12:47:45Z : No. of bitstreams: 1 000814554.pdf: 1036461 bytes, checksum: d283821ec198dc606a55ae773016ef83 (MD5) / Tumores mamários são muito comuns em cadelas e apresentam comportamento biológico semelhante aos que ocorrem nas mulheres, tornando a cadela um excelente modelo de estudo comparativo. A transição epitélio-mesênquima (EMT) facilita a migração celular, favorecendo a ocorrência de metástases, fator que tem influência direta no prognóstico das pacientes com neoplasia mamária. Assim, este estudo objetivou avaliar, pela técnica de imuno-histoquimica, marcadores de EMT em tumores mamários caninos (E-caderina, β-catenina, Vimentina e Citoceratina), além da expressão gênica e protéica de dos genes WNT5A e APC pelas técnicas de RT-qPCR e imuno-histoquímica. Para isto foram utilizadas 98 cadelas, sem predileção por raça ou idade, além de glândulas mamárias normais. Quatro grupos foram formados: (G1) 5 amostras de mamas normais sem alterações histopatológicas; (G2) 28 alterações mamárias benignas; (G3) 56 carcinomas mamários sem metástase e (G4) 14 carcinomas mamários com metástase. Ambos os genes (APC e WNT5A) mostraram maior expressão entre as mamas normais, sem diferença entre neoplasias benignas e malignas (com e sem metástase). O fenótipo de EMT foi identificado pela análise multivariada, pois neoplasias benignas foram fortemente associadas à β-catenina em membrana, escore elevado de citoceratina e negatividade para vimentina nas células epiteliais, enquanto os carcinomas metastáticos foram associados à β-catenina nuclear, baixo escore de E-caderina e positividade para vimentina em suas células epiteliais neoplásicas. Como a presença de β-catenina nuclear é característica da ativação da via de sinalização do Wnt/β-catenina, é possível concluir que esta via está ativada entre as neoplasias mamárias caninas e que o processo de EMT está ocorrendo visto a transformação das células epiteliais das neoplasias benignas em um fenótipo mesenquimal como o observado nas neoplasias ... / Mammary tumors are very common in bitches and have a very similar biological behavior to the ones that occur in women, turning it an excellent model for comparative studies. Epithelial-mesenchymal transition (EMT) facilitate migration and the occurrence of metastasis, factor that have direct influence on prognosis. Thus, this study aimed to evaluate, by immunohistochemistry (IHC), EMT markers in canine mammary tumors (e-cadherin, β-catenin, vimentin and cytokeratin). In addition, gene and protein expressions of two genes WNT5A and APC were evaluated by qRT-PCR and immunohistochemistry. To this, 98 bitches with no breed or age predilection, besides normal mammary glands without neoplastic lesions were used to form four groups: (G1) 5 normal mammary samples; (G2) 28 benign mammary lesions; (G3) 56 non-metastatic mammary carcinomas and (G4) 14 metastatic carcinomas. Both genes, APC and WNT5A show higher expression between normal mammary samples and no difference among benign and malignant tumors (metastatic and non-metastatic). EMT phenotype was identified by multivariate analysis, because benign tumors were stongly associated with membranous β-catenin, high scores of Cytokeratin and no vimentin expression in epithelial cells and metastatic carcinomas were strongly associated to nuclear β-catenin, low E-cadherin expression and vimentin positivity in neoplastic epithelial cells. As nuclear localization of β-catenin is characteristic of Wnt/β-catenin signaling pathway aberrant activation, we can conclude that Wnt/β-catenin signalling pathway is activated among canine mammary tumors and EMT is occuring since benign epithelial cells have been transformed in mesenchymal cells in metastatic tumors. Those findings provide data for a better understanding of cancer progression and open new perspectives about research not only in mammary tumors, but also in other neoplastic types in dogs, facilitating to identify new prognostic factors and ...
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Developing Bioinformatics Web Applications for Systems Biological Modeling of Tumor Drivers and Metastasis in Pancreatic and Other Cancer Types / Entwicklung von Bioinformatik-Webanwendungen für systembiologische Modellierung von Tumortreibern und Metastasierung bei Pankreas- und anderen Krebsarten

Salihoglu, Rana January 2024 (has links) (PDF)
Cancer is one of most challenging diseases to understand and treat due to its complex nature. Various innovative approaches are used in cancer research to analyse biological data and to provide better therapeutic strategies. Web-tools incorporating biological analyses enable easy access to computational tools and cancer genomics data, serving as a bridge between computational biology and clinical practices. These tools have recently accelerated the discovery of new biomarkers and therapeutic targets for different cancer diseases. This thesis explores the integration of multiple computational tools in network research by providing two new R/Shiny web-tools for an integrated analysis of protein-interactions and cellular network dynamics for healthy state and different disease state, emphasizing cancer research. The PRO-Simat (PROtein Simulation Analysis Tool) and Cat-E (Cancer Target Explorer) web-tools are developed to advance cancer research, with a particular emphasis on pancreatic cancer, which is characterized by a low five-year survival rate of about 13%, highlighting the need for innovative research approaches. The main goal of this thesis is to contribute significantly to the development of more effective treatment strategies, ultimately aiming to improve patient outcomes and quality of life. PRO-Simat, which is freely available at http://prosimat.bioinfo-wuerz.eu, stands out as a significant advancement in bioinformatics, providing a comprehensive platform for simulating and analysing protein interaction networks. It features a vast integrated database with over 8 million protein-protein interactions across 32 model organisms, including the human proteome. Using the Jimena framework, it allows for dynamics network simulations, gene ontology enrichment, and pathway engineering. This tool enables researchers to visualize complex protein interactions and conduct in-depth analysis, which is crucial for understanding the molecular mechanisms underlying various diseases, including cancer. Use cases demonstrating the main applications of PRO-Simat explored differentiation pathways in \textit{Bacillus subtilis}, enhanced oncolytic properties of vaccinia virus, and control optogenetic nucleotide processing networks for DNA storage. Cat-E is designed as a user-friendly interface (https://cat-e.bioinfo-wuerz.eu/) for analysing and interpreting cancer-related omics data. It aggregates diverse datasets from sources like OvirusTDB, TCGA, DrugBANK, and PubChem. This tool supports a wide range of analyses, including differential gene expression, metabolic pathway exploration, and survival analysis. Through practical case studies, including lung adenocarcinoma, Cat-E provides an invaluable resource for researchers, clinicians, and students, helping in the identification of novel diagnostic markers and therapeutic targets across different cancer types. By using PRO-Simat and Cat-E, the thesis presents new insights into key pathways and molecular markers significant for cancer, illustrating how computational modelling combined with genomic data can reveal important molecular interactions and their changes over time including activation, inhibition and signaling cascades involved in health but also various disease states, stressing cancer (Cat-E). The development of PRO-Simat and Cat-E does not only facilitate the understanding of disease mechanisms but also support the progress of personalized medicine approaches in allowing to explore future cancer treatment strategies. The thesis emphasizes the potential of these tools to transform cancer research by providing deep insights into molecular mechanisms of disease and offering new targets for therapeutic intervention strategies. This demonstrates a strong commitment to addressing urgent tasks in cancer research and future clinical application, potentially leading to powerful advancements in the fight against pancreatic cancer. / Krebs ist eine der schwierigsten Krankheiten, die es zu verstehen und zu behandeln gilt, da sie sehr komplex ist. In der Krebsforschung werden verschiedene innovative Ansätze verwendet, um biologische Daten zu analysieren und bessere therapeutische Strategien zu entwickeln. Web-Tools, die biologische Analysen beinhalten, ermöglichen einen einfachen Zugang zu computergestützten Werkzeugen und Krebsgenomikdaten und dienen als Brücke zwischen computergestützter Biologie und klinischer Praxis. Diese Werkzeuge haben in letzter Zeit die Entdeckung neuer Biomarker und therapeutischer Ziele für verschiedene Krebserkrankungen beschleunigt. Diese Arbeit erforscht die Integration mehrerer Berechnungswerkzeuge in der Netzwerkforschung, indem sie zwei neue R/Shiny Web-Tools für eine integrierte Analyse von Protein-Interaktionen und zellulären Netzwerkdynamiken für den gesunden Zustand und verschiedene Krankheitszustände bereitstellt, mit Schwerpunkt auf der Krebsforschung. Die Web-Tools PRO-Simat (PROtein Simulation Analysis Tool) und Cat-E (Cancer Target Explorer) wurden entwickelt, um die Krebsforschung voranzubringen, mit besonderem Schwerpunkt auf Bauchspeicheldrüsenkrebs, der durch eine niedrige Fünf-Jahres-Überlebensrate von etwa 13% gekennzeichnet ist, was die Notwendigkeit innovativer Forschungsansätze unterstreicht. Das Hauptziel dieser Arbeit ist es, einen wesentlichen Beitrag zur Entwicklung effektiverer Behandlungsstrategien zu leisten, um letztlich die Ergebnisse und die Lebensqualität der Patienten zu verbessern. PRO-Simat, das unter http://prosimat.bioinfo-wuerz.eu frei verfügbar ist, stellt einen bedeutenden Fortschritt in der Bioinformatik dar und bietet eine umfassende Plattform für die Simulation und Analyse von Proteininteraktionsnetzwerken. Es verfügt über eine umfangreiche integrierte Datenbank mit über 8 Millionen Protein-Protein-Interaktionen in 32 Modellorganismen, einschließlich des menschlichen Proteoms. Unter Verwendung des Jimena-Frameworks ermöglicht es dynamische Netzwerksimulationen, die Anreicherung von Gen-Ontologien und das Pathway Engineering. Dieses Tool ermöglicht es Forschern, komplexe Proteininteraktionen zu visualisieren und eingehende Analysen durchzuführen, was für das Verständnis der molekularen Mechanismen, die verschiedenen Krankheiten, einschließlich Krebs, zugrunde liegen, entscheidend ist. Anwendungsfälle, die die Hauptanwendungen von PRO-Simat demonstrieren, sind die Erforschung von Differenzierungswegen in Bacillus subtilis, die Verbesserung der onkolytischen Eigenschaften von Vaccinia-Viren und die Steuerung optogenetischer Nukleotidverarbeitungsnetzwerke für die DNA-Speicherung. Cat-E ist als benutzerfreundliche Schnittstelle (https://cat-e.bioinfo-wuerz.eu/) für die Analyse und Interpretation von krebsbezogenen Omics-Daten konzipiert. Es aggregiert verschiedene Datensätze aus Quellen wie OvirusTDB, TCGA, DrugBANK und PubChem. Dieses Tool unterstützt eine breite Palette von Analysen, einschließlich der differenziellen Genexpression, der Erforschung von Stoffwechselwegen und der Überlebensanalyse. Anhand praktischer Fallstudien, darunter das Adenokarzinom der Lunge, stellt Cat-E eine unschätzbare Ressource für Forscher, Kliniker und Studenten dar und hilft bei der Identifizierung neuartiger diagnostischer Marker und therapeutischer Ziele für verschiedene Krebsarten. Durch den Einsatz von PRO-Simat und Cat-E werden in dieser Arbeit neue Einblicke in wichtige Signalwege und molekulare Marker, die für Krebs von Bedeutung sind, vorgestellt. Dabei wird gezeigt, wie die computergestützte Modellierung in Verbindung mit genomischen Daten wichtige molekulare Interaktionen und deren Veränderungen im Laufe der Zeit aufdecken kann, einschließlich Aktivierung, Hemmung und Signalkaskaden, die bei Gesundheit, aber auch bei verschiedenen Krankheitszuständen, insbesondere Krebs, eine Rolle spielen (Cat-E). Die Entwicklung von PRO-Simat und Cat-E erleichtert nicht nur das Verständnis von Krankheitsmechanismen, sondern unterstützt auch den Fortschritt der personalisierten Medizin, indem sie die Erkundung künftiger Krebsbehandlungsstrategien ermöglicht. Die Arbeit unterstreicht das Potenzial dieser Software-Werkzeuge, die Krebsforschung voran zu bringen, indem sie tiefe Einblicke in molekulare Krankheitsmechanismen gewähren und neue Ansatzpunkte für therapeutische Interventionsstrategien bieten. Dies zeigt unser starkes Engagement für dringende Aufgaben in der Krebsforschung und für künftige klinische Anwendungen, die möglicherweise zu großen Fortschritten im Kampf gegen Bauchspeicheldrüsenkrebs führen können.
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Le Nilotinib inhibe les propriétés invasives et métastasantes des cellules de cancer colorectal en ciblant le récepteur à activité tyrosine kinase DDR1 / The anti-leukemic drug nilotinib inhibits invasive and metastatic properties of colorectal cancer cells by targeting the collagen receptor DDR1.

Tosti, Priscillia 30 June 2014 (has links)
Le cancer colorectal (CCR) demeure l'une des principales causes de décès par cancer dans le monde. Récemment, une nouvelle immunothérapie basée sur le ciblage du récepteur à activité tyrosine kinase (RTK) EGFR via l'anticorps cetuximab a montré une amélioration significative de la survie des patients atteints de CCR métastatique (CCRm). Cependant, une grande partie de ces patients présente une résistance qui est associée à la présence de mutations gains de fonction dans la voie de signalisation Ras. Dans ce contexte, l'identification de cibles thérapeutiques Ras-indépendantes pourrait avoir un intérêt particulier. Une analyse pharmacologique effectuée au laboratoire démontre que le nilotinib, un inhibiteur de la TK oncogénique BCR-ABL utilisée en clinique pour le traitement des leucémies myéloïdes chroniques, affecte également les propriétés invasives et métastatiques de cellules de CCR. Nous avons identifié la cible majoritaire de cet inhibiteur dans cette réponse tumorale : il s'agit de DDR1, un récepteur au collagène ayant une activité TK intrinsèque. Mon travail de thèse a mis en évidence que DDR1 est fréquemment et fortement activé dans les métastases de patients atteints de CCR. J'ai ensuite analysé la signalisation DDR1-dépendante dans ces cellules tumorales par phosphoprotéomique quantitative. Cette analyse montre la nature Ras-indépendante de cette signalisation et révèle la protéine de signalisation BCR comme un nouveau substrat essentiel de DDR1 pour induire l'invasion cellulaire. Enfin, je montre que l'inhibition de DDR1 par le nilotinib améliore la réponse au cetuximab y compris pour les cellules tumorales ayant une mutation oncogénique de K-Ras ou B-Raf. En conclusion, ces résultats suggèrent que le ciblage de DDR1 par le nilotinib pourrait avoir un intérêt thérapeutique dans le traitement des CCRm. / Colorectal cancer (CRC) is one of the leading causes of cancer-related death in the Western world. Cancer that metastasizes to distant sites is usually not curable, although chemotherapy can extend survival. Recently, a novel immunotherapy approach based on targeting the EGFR tyrosine kinase (TK) via the antibody cetuximab was shown to significantly improve the survival of patients with metastatic CRC (mCRC). However, only patients with wild-type KRAS may hope to gain from EGFR inhibition. The majority of patients expresses oncogenic K-Ras alleles and thus have hyperactive Ras cascade operating independently from EGFR. Therefore, there is an urgent need for discovery of a new Ras-independent target that regulates tumor cell invasion and metastasis in mCRC. A pharmacological approach in the lab revealed that the small inhibitor of the leukemic TK BCR-Abl also inhibits invasive and metastatic abilities of CRC cells. This effect was also observed in cells expressing deregulated KRAS signalling. We next identified the receptor for collagen and atypical TK DDR1 as that the main target of nilotinib in these cells. Accordingly, DDR1 was found frequently and strongly activated in metastatic nodules of CRC patients. I also characterized DDR1 signalling by quantitative phosphoproteomic. This analysis revealed the Ras-independent nature of DDR1 signalling but also the Rho GTPase regulator BCR as an essential DDR1 substrate that leads to cell invasion. Finally, I demonstrate that nilotinib potentiates cetuximab response in CRC cells expressing oncogenic K-Ras signaling. Overall, these results suggest that the targeting of DDR1 by nilotinib may be of therapeutic value in mCRC.

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