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Effects of Aberrant HGF/MET Signalling on Cerebellar Development and Medulloblastoma PathogenesisOnvani, Sara 04 December 2012 (has links)
Medulloblastoma is the most common malignant paediatric brain tumour. Similar to other tumours, medulloblastoma pathogenesis involves abnormal regulation of several developmental growth pathways. As my thesis project, I studied the effects of aberrant HGF/MET signalling on medulloblastoma formation in two ways. In my first objective, I investigated the role that mutations play in activated HGF/MET signalling in medulloblastoma by searching for mutations in HGF/MET pathway genes, SPINT1, SPINT2, and MET, within primary medulloblastoma specimens. This screen identified several single nucleotide polymorphisms (SNPs) and two novel variations, one in each SPINT1 and SPINT2 genes.
In my second objective, I generated a transgenic mouse model with cerebellar-specific aberrant MET signalling. These mice developed extensive cerebellar abnormalities but formed no tumours. These results indicate that mutations in the HGF/MET pathway components alone are not sufficient to initiate medulloblastoma formation and must coincide with additional genetic insults to promote tumour formation, maintenance, and progression.
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Effects of Aberrant HGF/MET Signalling on Cerebellar Development and Medulloblastoma PathogenesisOnvani, Sara 04 December 2012 (has links)
Medulloblastoma is the most common malignant paediatric brain tumour. Similar to other tumours, medulloblastoma pathogenesis involves abnormal regulation of several developmental growth pathways. As my thesis project, I studied the effects of aberrant HGF/MET signalling on medulloblastoma formation in two ways. In my first objective, I investigated the role that mutations play in activated HGF/MET signalling in medulloblastoma by searching for mutations in HGF/MET pathway genes, SPINT1, SPINT2, and MET, within primary medulloblastoma specimens. This screen identified several single nucleotide polymorphisms (SNPs) and two novel variations, one in each SPINT1 and SPINT2 genes.
In my second objective, I generated a transgenic mouse model with cerebellar-specific aberrant MET signalling. These mice developed extensive cerebellar abnormalities but formed no tumours. These results indicate that mutations in the HGF/MET pathway components alone are not sufficient to initiate medulloblastoma formation and must coincide with additional genetic insults to promote tumour formation, maintenance, and progression.
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ROLE OF CELL ADHESION MICROENVIRONMENT AND THE SRC/STAT3 AXIS IN AUTOCRINE HGF SIGNALING DURING BREAST TUMOURIGENESISStarova, BLERTA 22 September 2008 (has links)
Over-expression of both hepatocyte growth factor (HGF) and its receptor Met
frequently occurs in invasive human breast cancer, suggesting that the establishment of an HGF “autocrine loop” may be linked to breast tumour progression. We have recently
shown a novel activating function of two signaling molecules, Src tyrosine kinase and the signal transducer and activator of transcription-3 factor (Stat3), on HGF expression in breast epithelial cells. Interestingly, Stat3 is also important in normal breast development,but this function does not require Src. In addition, β1-integrin adhesion occurs minimally in differentiated breast epithelium, but is upregulated during oncogenic progression and is required for transformation by Src. We therefore hypothesize that β1-integrin engagement is necessary for Src/Stat3-dependent activation of HGF transcription and breast tumourigensis. Using specific inhibitors of Src (Dasatinib) and Stat3 (CPA7) we demonstrated that autocrine HGF expression is linked to activation of Src/Stat3 in a malignant breast cell line. Phenotypic reversion (e.g., cell rounding and loss of filopodial extensions) and inhibition of pY705Stat3, HGF and pYMet expression as determined by immunofluorescence was achieved with both inhibitor treatments separately, and a
synergistic effect was observed with combined treatment. Furthermore, β-catenin
localization was nuclear in malignant cells, but shifted to cortical cytoplasmic following
inhibitor treatment, similar to non-malignant mouse breast epithelial cells (EPH4). We are currently extrapolating these findings to a 3D Matrigel culture model in which EPH4 cells form acini-like spheroids with hollow lumen surrounded by a well-polarized outer layer of cells. Under these conditions, Stat3 levels are decreased followed by a reduction in cyclin D1 expression, while Src activation remains at a low baseline level. Interestingly,expression of Stat5, which has a reciprocal relationship with Stat3 in breast development and involution, is increased concomitant with elevated β-casein expression. Moreover, Fibronectin and HGF in combination stimulate tubular outgrowths with lumen filling.
These findings suggest that aberrant changes in extracellular matrix milieu may stimulate
integrin cross talk resulting in a switch of HGF/Met signaling to a transformation
phenotype. Information from this study may lead to novel cancer therapies through
targeting the HGF/Met and integrin signaling cascades. / Thesis (Master, Pathology & Molecular Medicine) -- Queen's University, 2008-09-19 18:19:22.744
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Das neu identifizierte Gen MACC1 ist ein Regulator des HGF/Met-Signalweges und ist prognostisch für die Metastasierung des KolonkarzinomsArlt, Franziska 05 August 2009 (has links)
Das Kolonkarzinom ist eine der häufigsten Tumorerkrankungen weltweit. Etwa 50 % der Patienten entwickeln Fernmetastasen. Diese haben eine sehr schlechte Überlebensprognose. Deshalb fokussiert die Forschung auf die Identifizierung neuer, molekularer Marker für eine verbesserte Metastasierungsvorhersage. Identifizierte Hochrisiko-Patienten könnten somit rechtzeitig eine individualisierte, intensivere Therapie erhalten. MACC1 (Metastasis-associated in colon cancer 1) ist ein neu identifiziertes Gen, das in Kolonkarzinomen und deren Fernmetastasen überexprimiert wird. Die Domänenstruktur von MACC1 ist kennzeichnend für Proteine der Rezeptor-Tyrosinkinase-Signalwege. Ziel dieser Arbeit war die Aufklärung der zellulären Funktion von MACC1 und seiner Rolle in der Tumorprogression sowie die Evaluierung von MACC1 als molekularer Metastasierungsmarker. MACC1-überexprimierende Tumorzellen zeigten in Abhängigkeit von der Domänenstruktur in in vitro Assays ein erhöhtes migratorisches, invasives und proliferatives Potential. Der Einfluss von MACC1 auf die Metastasierungskapazität von Tumorzellen konnte auch im Tiermodell belegt werden. Der Hepatocyte-growth-factor (HGF) induziert die epitheliale-mesenchymale Transition MACC1-exprimierender Zellen und die nukleäre Translokation von MACC1. Die Expression des HGF-Rezeptors Met war in diesen Zellen stark erhöht. Reportergen-Studien bestätigten die transkriptionelle Regulation von Met durch MACC1. Die Analyse humaner Kolonkarzinome ergab eine signifikant höhere MACC1 Expression in Primärtumoren mit metachroner Fernmetastasierung. MACC1 ist ein neu identifizierter Regulator des HGF/Met-Signalweges und trägt somit entscheidend zur Determinierung des metastatischen Potentials von Tumorzellen bei. MACC1 hat großes Potential als neuer, prognostischer Marker für die Metastasierung des Kolonkarzinoms und ist ein Kandidatengen als Ziel effektiver, molekularer Interventionsstrategien zur Metastasierungs-Prävention. / Colon cancer is one of the most frequent malignant diseases worldwide. About 50% of the patients develop distant metastasis. These patients have only few therapy options and very poor survival rates. Therefore cancer research focuses on the identification of novel molecular markers to provide a better prognosis of the metastatic risk. Identified high-risk patients would get access to an early, individualized therapy. MACC1 (metastasis associated in colon cancer 1) is a newly identified gene that is overexpressed in colon carcinomas and their distant metastases. The MACC1 domain structure is characteristic for proteins of the receptor tyrosine kinase signalling pathways. Aim of this study was the analysis of the cellular function of MACC1, its role in tumor progression and its evaluation as a molecular, prognostic marker for metastasis. MACC1 overexpressing tumor cells revealed higher migratory, invasive, and proliferative potential in in vitro assays. The impact of MACC1 on the metastatic potential of tumors was also shown in mouse models. The hepatocyte growth factor (HGF) induced epithelial-mesenchymal-transition in MACC1 positive cells and MACC1´s nuclear translocation. Expression of the HGF receptor Met was strongly elevated in these cells. Reporter gene experiments confirmed the transcriptional regulation of Met by MACC1. Analyses in human colon carcinomas showed a significantly higher MACC1 expression in tumors that developed distant metastases. MACC1 is a newly identified regulator of the HGF/Met signalling pathway. It contributes decisively to the metastatic capacity of tumor cells. MACC1 has great potential as new prognostic marker for colon cancer metastasis and is a promising candidate as target for effective, molecular intervention strategies for metastasis prevention.
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EVALUATION DE L’INHIBITION DE L’ANGIOGENESE DANS LE NEUROBLASTOME ET CARACTERISATION DE MECANISMES DE RESISTANCE / EXPLORATION OF ANGIOGENESIS INHIBITION IN NEUROBLASTOMA AND CHARACTERIZATION OF ESCAPE MECHANISMSDaudigeos -Dubus, Estelle 16 December 2014 (has links)
Adulte ou pédiatrique, les tumeurs solides ont besoin d’oxygène et de nutriments pour se développer et métastaser. Leur apport est assuré par la néo-vascularisation tumorale issue d’un processus multifactoriel appelé l’angiogénèse. Son équilibre est maintenu par une balance entre facteurs pro- et anti-angiogéniques. Elle fait partie des principales cibles pour traiter les cancers et l’inhibition de la voie VEGF en est un facteur clé. Cependant, la réponse aux agents anti-angiogéniques a montré, malgré des résultats encourageants, un effet transitoire associé à l’apparition d’une résistance adaptative de la tumeur.Nous avons étudié l’inhibition de l’angiogénèse et les mécanismes potentiels d’échappement dans les tumeurs pédiatriques solides, et principalement dans le neuroblastome. Le neuroblastome est une tumeur originaire de la crête neurale et atteint généralement l’enfant jeune. Nous avons exploré l’effet anti-tumoral de l’inhibition sélective des récepteurs 1, 2, 3 du VEGF à l’aide de l’inhibiteur à tyrosine kinase axitinib dans divers modèles précliniques de neuroblastome. L’axitinib a montré une activité anti-tumorale modérée associée à une inhibition de la vascularisation. Néanmoins, après un traitement prolongé in vitro, les cellules tumorales IGR-N91-Luc deviennent résistantes à l’axitinib. Elles prolifèrent normalement mais secrètent de «l’ hepatocyte growth factor» (HGF) et activent la voie MAPK. In vivo, le traitement prolongé par axitinib entraîne le développement d’un phénotype plus agressif de la tumeur avec l’augmentation du nombre d’animaux présentant des métastases, associée à une activation de la voie SRC. Ceci nous a conduit à explorer l’effet d’une inhibition ciblant principalement VEGFR2 et MET (récepteur à l’HGF) avec le cabozantinib. Ainsi nous avons contrôlé le développement tumoral en inhibant la néo-vascularisation et l’activation de SRC, et induit la mort cellulaire dans le modèle orthotopique IGR-N91-Luc et inhibé le développement métastatique dans le modèle systémique IMR-32-Luc. Par ailleurs, nous avons étendu notre exploration à d’autres facteurs jouant un rôle dans l’angiogénèse comme FGFR ou PDGFR car ils représentent, comme MET, de puissants oncogènes. Pour cibler simultanément VEGFR et PDGFR, nous avons utilisé l’inhibiteur multi-kinase regorafenib. In vivo, à des doses bien tolérées qui permettent un traitement prolongé, le regorafenib a montré une activité anti-tumorale significative. Cet effet a été associé principalement à une forte inhibition de la vascularisation mais également à l’induction de la mort cellulaire. En élargissant notre étude à d’autres modèles de tumeurs pédiatriques, nous avons observé que son activité est indépendante du type histologique. Compte tenu du caractère oncogénique de PDGFR, nous avons évalué cet inhibiteur dans des modèles présentant une amplification du gène PDGFRA, qui entraine une surexpression et une activation forte du récepteur. Combiné avec des thérapies standards capables d’induire des dommages à l’ADN telles que l’irradiation ou l’irinotecan, l’effet du regorafenib a été potentialisé, notamment dans les modèles amplifiés pour le gène PDGFRA se traduisant par des régressions tumorales. Ces évaluations précliniques soutiennent le développement d’une nouvelle stratégie thérapeutique pour les enfants atteints de tumeurs solides. / Solid tumors either adult or pediatric need oxygen and nutrients to grow and metastasize. Their input is provided by tumor neovascularization after a multifactorial process called angiogenesis. Balance is maintained by equilibrium between pro and anti-angiogenic factors. It is one of the main targets for treating cancers and the inhibition of the VEGF pathway is a key factor. However, despite encouraging results, the response to anti-angiogenic agents showed a transient effect associated with the development of an adaptive tumor resistance. We studied the inhibition of angiogenesis and potential escape mechanisms in solid pediatric tumors, mainly in neuroblastoma. Neuroblastoma is a solid tumor derived from the neural crest and it usually affects childhood. We investigated the anti-tumor effect of selective inhibition of VEGF receptors 1, 2, 3 using the tyrosine kinase inhibitor axitinib in various preclinical neuroblastoma l models. Axitinib showed a moderate anti-tumor activity associated with the inhibition of vascularization. However, after prolonged treatment in vitro, tumor cells IGR-N91-Luc become resistant to axitinib. They proliferate normally but secrete the "hepatocyte growth factor" (HGF) and activate the MAPK pathway. In vivo, prolonged treatment by axitinib results in the development of a more aggressive tumor phenotype with an increase in the number of animals exhibiting metastases associated with an activation of SRC signaling. This led us to explore the effect of inhibiting concomitant VEGFR2 and MET (HGF receptor), main cabozantinib targets. So we stabilized tumor growth by inhibiting the neovascularization and activation of SRC, induced cell death in the orthotopic model IGR-N91-Luc and inhibited metastatic development in the IMR-32-Luc systemic model. In addition, we extended our exploration of other factors that play a role in angiogenesis like FGFR or PDGFR because they represent, like MET, powerful oncogenes. To simultaneously target VEGFR and PDGFR, we used the multi-kinase inhibitor regorafenib. In vivo, at well-tolerated doses that allow prolonged treatment, regorafenib showed significant anti-tumor activity. This effect was mainly associated with a strong inhibition of vascularization, but also (with) induction of cell death. By expanding our study to other models of pediatric tumors, we observed that its activity was independent of histologic type. Given the oncogenic character of PDGFR, we evaluated the inhibitor in models which present a PDGFRA gene amplification, which results in a strong activation of the receptor. Combined with standard therapies that can induce DNA damages such as irinotecan or radiation, the effect of regorafenib was potentiated, mainly in PDGFRA gene amplified models, where tumor regressions were obtained. These preclinical evaluations support the development of a new therapeutic strategy for children with solid tumors.
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HGF/Met-mediated Phosphorylation of Stathmin1 Serine 16 Regulates Cell Proliferation and not MetastasisDeford, Paul 23 August 2022 (has links)
No description available.
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Overexpression of HGF/MET axis along with p53 inhibition induces de novo glioma formation in miceQin, Yuan, Musket, Anna, Kou, Jianqun, Preiszner, Johanna, Tschida, Barbara R., Qin, Anna, Land, Craig A., Staal, Ben, Kang, Liang, Tanner, Kirk, Jiang, Yong, Schweitzer, John B., Largaespada, David A., Xie, Qian 01 January 2020 (has links)
BACKGROUND: Aberrant MET receptor tyrosine kinase (RTK) activation leads to invasive tumor growth in different types of cancer. Overexpression of MET and its ligand hepatocyte growth factor (HGF) occurs more frequently in glioblastoma (GBM) than in low-grade gliomas. Although we have shown previously that HGF-autocrine activation predicts sensitivity to MET tyrosine kinase inhibitors (TKIs) in GBM, whether it initiates tumorigenesis remains elusive. METHODS: Using a well-established Sleeping Beauty (SB) transposon strategy, we injected human and cDNA together with a short hairpin siRNA against (SB-hHgf.Met.ShP53) into the lateral ventricle of neonatal mice to induce spontaneous glioma initiation and characterized the tumors with H&E and immunohistochemistry analysis. Glioma sphere cells also were isolated for measuring the sensitivity to specific MET TKIs. RESULTS: Mixed injection of SB-hHgf.Met.ShP53 plasmids induced de novo glioma formation with invasive tumor growth accompanied by HGF and MET overexpression. While glioma stem cells (GSCs) are considered as the tumor-initiating cells in GBM, both SB-hHgf.Met.ShP53 tumor sections and glioma spheres harvested from these tumors expressed GSC markers nestin, GFAP, and Sox 2. Moreover, specific MET TKIs significantly inhibited tumor spheres' proliferation and MET/MAPK/AKT signaling. CONCLUSIONS: Overexpression of the HGF/MET axis along with p53 attenuation may transform neural stem cells into GSCs, resulting in GBM formation in mice. These tumors are primarily driven by the MET RTK pathway activation and are sensitive to MET TKIs. The SB-hHgf.Met.ShP53 spontaneous mouse glioma model provides a useful tool for studying GBM tumor biology and MET-targeting therapeutics.
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Tissue-specific gain of wild-type RTK levels combined with screen strategies identify new mechanisms of cell vulnerability in developmental and tumorigenic programsFan, Yannan 18 November 2016 (has links)
Pour étudier la capacité cellulaire à s’adapter aux changements de signalisation dépendante des RTKs, nous utilisons un modèle de souris où l’expression du RTK Met sauvage peut être accrue dans un tissu spécifique. La plupart des tissus se protègent contre cette expression anormale des RTK. Mais certains types cellulaires sont sensibles aux altérations des RTKs, c’est le cas du mésenchyme du membre pendant l’embryogenèse. En effet, l’expression de certains gènes du mésenchyme est modifiée et celui-ci n’est plus accessible aux myoblastes qui le colonisent, conduisant à des déficits des muscles du membre. Chez l’adulte une augmentation de l’expression de Met dans le foie (Alb-R26Met) perturbe l’homéostasie tissulaire, conduisant à la tumorigenèse. Pour identifier des gènes qui coopèrent avec les RTKs pendant l’initiation de la tumorigenèse, nous avons combiné les souris Alb-R26Met avec le système de mutagenèse Sleeping Beauty (SB) transposon. 285 gènes putatifs liés au cancer ont été identifiés. Certains sont des proto-oncogènes ou suppresseurs de tumeurs déjà connus, validant le système. D’autres gènes n’avaient, jusqu’à présent, jamais été associés à ce processus. 9 candidats ont été fonctionnellement validés. Pour identifier des signaux assurant le maintien de la tumeur, nous avons analysé le phosphokinome, testé l’efficacité de composés et identifié de nouvelles combinaisons de drogues qui agissent en synergie pour tuer les cellules cancéreuses dérivées de Alb-R26Met. En conclusion, ces travaux montrent qu’une approche génétique non-biaisée combinée à une approche génomique permet d’identifier de nouveaux mécanismes pertinents pour la biologie du cancer. / We explore the cell competence to deal with slight changes in RTK inputs during embryogenesis and tissue homeostasis using a mouse model in which wild-type RTK Met levels can be moderately enhanced in a tissue specific manner. Most tissues buffer enhanced RTK levels thus avoiding perturbation of developmental programs and tissue homeostasis. Nevertheless, certain cell types are vulnerable to RTK levels. During embryogenesis, the limb mesenchyme is sensitive to alterations of the spatial distribution of RTKs, as illustrated by gene expression changes and by loss of accessibility to incoming myoblasts, which lead to limb muscle defects. At adulthood, liver enhanced Met levels (Alb-R26Met) perturbs tissue homeostasis, leading to tumorigenesis. To uncover new genes that cooperate with RTKs during tumour initiation, we combined Alb-R26Met mice with the Sleeping Beauty (SB) transposon mutagenesis system. 285 putative cancer-related genes have been identified. Some correspond to known proto-oncogenes or tumour suppressors, thus validating the overall strategy we employed for cancer gene discovery. Others have not been previously linked to cancer. 9 new tumour suppressors have been functionally validated, demonstrating the validity of our screen strategy. To identify signals involved in tumour maintenance, we employed a phosphokinome-guided drug screen and identified new synergistic drugs deleterious for cancer cells modelled by the Alb-R26Met genetic setting. The overall strategy and outcomes strengthen the value of combining unbiased genetic and genomic approaches to identify new mechanisms relevant for cancer biology and new therapeutic interventions.
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Identification of Novel Notch Target Genes in Breast CancerGoldvasser, Pavel 07 December 2011 (has links)
Notch signaling plays a key role in development, tissue homeostasis, and cancer. High expression levels of Notch signaling components are associated with aggressive disease and poor patient prognosis in breast cancer. Mesenchymal‐epithelial transition factor (MET) is a receptor tyrosine kinase with an established prognostic significance correlating with poor disease outcome in breast cancer patients as a result of high metastatic rate. We performed expression array analysis to identify candidate Notch target genes; we identified and validated MET as a target of NOTCH1 signaling in breast cancer. We found that NOTCH1 knockdown significantly reduces MET promoter activity, as well as expression levels of MET transcript and protein. The mechanism of NOTCH1 regulation of MET expression will be the focus of future work. To further identify candidate target genes of NOTCH1 signaling, we generated and validated a NOTCH1 antibody for use in chromatin immunoprecipitation experiments.
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Identification of Novel Notch Target Genes in Breast CancerGoldvasser, Pavel 07 December 2011 (has links)
Notch signaling plays a key role in development, tissue homeostasis, and cancer. High expression levels of Notch signaling components are associated with aggressive disease and poor patient prognosis in breast cancer. Mesenchymal‐epithelial transition factor (MET) is a receptor tyrosine kinase with an established prognostic significance correlating with poor disease outcome in breast cancer patients as a result of high metastatic rate. We performed expression array analysis to identify candidate Notch target genes; we identified and validated MET as a target of NOTCH1 signaling in breast cancer. We found that NOTCH1 knockdown significantly reduces MET promoter activity, as well as expression levels of MET transcript and protein. The mechanism of NOTCH1 regulation of MET expression will be the focus of future work. To further identify candidate target genes of NOTCH1 signaling, we generated and validated a NOTCH1 antibody for use in chromatin immunoprecipitation experiments.
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