Global ETD Search

11	Study of the Hippo/YAP1 signaling pathway in gastric carcinogenesis induced by Helicobacter pylori / Etude de la voie de signalisation HIPPO/YAP dans la carcinogenèse gastrique induite par l'infection à Helicobacter pylori Molina-Castro, Silvia 30 June 2017 (has links) Le cancer gastrique (CG) est une maladie multifactorielle, fréquemment associée à l’infection chronique par des souches CagA+ d’Helicobacter pylori. La transition épithélio-mésenchymateuse (EMT) est un processus réversible dans lequel une cellule épithéliale polarisée acquiert un phénotype mésenchymateux. L’EMT est à l’émergence de cellules souches cancéreuses (CSC) qui expriment CD44 et présentent une activité ALDH élevée. L’infection des cellules épithéliales gastriques humaines (CEGs) par CagA+ H. pylori induit des cellules CD44+ avec des propriétés des CSCs via une EMT. La voie Hippo est composée par les kinases MST et LATS, et leurs cibles, les YAP1 et TAZ. Suite à la phosphorylation, YAP1 et TAZ sont inhibés. YAP1 et TAZ activés lient les facteurs TEAD pour promouvoir la croissance cellulaire et l’inhibition de l’apoptose.Notre premier objectif était de rechercher si H. pylori change l’état d’activation de la voie Hippo et l'effet sur l’EMT et les CSC in vitro et in vivo. Le deuxième but est la caractérisation du rôle de YAP1/TEAD dans les propriétés de CSCs gastriques in vitro et les conséquences de son inhibition dans la croissance tumorale in vivo.Pour étudier la régulation de la voie Hippo pendant l’infection par H. pylori, LATS2, YAP1 et CD44 ont été évalués dans la muqueuse gastrique de sujets non-infectés et infectés par H. pylori, qui ont été augmentés avec l’infection et leur surexpression a été associée avec la gastrite et la métaplasie intestinale. Dans les CEGs l’expression de gènes de la voie Hippo a été altérée par l’infection. La régulation de la voie Hippo par H. pylori a une cinétique diphasique et dépendante de CagA. Dans l’infection précoce, H. pylori déclenche l’activité transcriptionelle de YAP1. Cette période d’inactivité de la voie Hippo est suivi de son activation progressive, soutenue par l’accumulation de LATS2 et la phosphorylation inhibitrice de YAP1. La répression de LATS2 avec siRNAs a accéléré l’acquisition du phénotype mésenchymateux après l’infection, l’augmentation de marqueurs de l’EMT (Zeb1 et Snail1), et la diminution des miR-200 épithéliaux. Les CSC induites par H. pylori ont été potentialisées par l’inhibition de LATS2, ce qui suggère que LATS2 limite l’EMT et le phénotype de CSC acquis pendant l’infection. L’inhibition de LATS2 ou YAP1 diminue l’expression de ces deux protéines, révélant ainsi une boucle de régulation positive. Dans des coupes de tissu de CG, l’expression de LATS2 et YAP1 est hétérogène et positivement corrélée, fait qui a été confirmé dans 38 CEGs de la CCLE. L’expression LATS2 est fortement corrélée à celle de CTGF et CYR61, ce qui suggère que LATS2 peut aussi être un gène cible de YAP1/TEAD.La verteporfine (VP) est capable d’interrompre l’interaction YAP1/TEAD, et donc d’inhiber son activité transcriptionelle. In vitro, utilisant CEGs et des cellules de tumeurs de patients amplifiées chez la souris (patient-derived xenograft PDX), le traitement à la VP a diminué la croissance cellulaire, l’expression de gènes cible de YAP1/TAZ/TEAD, l’activité du rapporteur TEAD-luciférase et la capacité de formation de sphères. L’activité de la VP a été testée in vivo par injection péri-tumorale dans un modèle de greffe sous-cutanés des CEGs MKN45 et MKN74 et le PDX GC10 chez la souris NSG. La croissance tumorale a été diminuée. Le poids des tumeurs, l’analyse par IHC (CD44, ALDH, Ki67) et la capacité de formation de sphères des CSCs résiduelles ont été diminuées. Ces résultats montrent une activité inhibitrice de la VP sur les CSCs gastriques in vitro et in vivo.Ce travail montre pour la première fois que l’axe LATS2/YAP1/TEAD est précocement activé pendant l’infection chronique avec H. pylori et que celui-ci contrôle l’EMT et les propriétés de CSC. Le ciblage de la voie Hippo a été montré comme étant efficace dans la prévention de la croissance tumorale, mettant en évidence le potentiel de son inhibition dans le traitement du cancer gastrique. / Gastric cancer (GC) is a multifactorial disease, most frequently associated to chronic infection with CagA-positive Helicobacter pylori strains. Epithelial-to-mesenchymal transition (EMT) is reversible process in which polarized epithelial cells acquire a mesenchymal phenotype. EMT is at the origin of cancer stem cells (CSC). In GC, CSCs express CD44 and high aldehyde-dehydrogenase (ALDH) activity. Infection with H. pylori of human gastric cancer cell lines (hGECs) in vitro induces the emergence of a population of CD44+ cells with CSC-properties through an EMT process in a CagA-dependent manner. The Hippo pathway is composed by the kinases MST and LATS, and their phosphorylation targets,YAP1 and TAZ. Upon phosphorylation by LATS, YAP1 and TAZ are inhibited. Active YAP1 and TAZ bind to TEAD transcription factors to promote the expression of genes that regulate cell growth and apoptosis.The first aim of this work was to investigate whether H. pylori affects the activation state of the Hippo pathway, and its effect on the EMT process and the CSCs. Second, we intended to characterize the role of YAP1/TEAD in gastric CSC properties in vitro and the consequences of its pharmacological inhibition on tumor growth in vivo.To study the Hippo pathway regulation during infection, LATS2, YAP1 and CD44 were evaluated in gastric mucosae of non-infected or H. pylori-infected patients. They were upregulated in infected mucosae and were associated to pathology. Hippo pathway regulation by H. pylori infection has biphasic kinetics and is CagA-dependent. Early in infection, H. pylori transiently triggered YAP1 expression and co-transcriptional activity, along with LATS2. This period of Hippo pathway inactivity is followed by a progressive activation, sustained by LATS2 accumulation and inhibitory YAP1Ser127-phosphorylation. LATS2 siRNA-mediated repression accelerated the acquisition of the EMT-phenotype upon infection, the up-regulation of EMT-markers ZEB1 and Snail1, and the decrease of the epithelial miR-200. H. pylori-induced CD44 upregulation, invasion and sphere-forming capacity were further enhanced upon LATS2 knockdown, suggesting that LATS2 restricts the EMT and CSC-like phenotype in hGECs upon H. pylori infection. Inhibition of either LATS2 or YAP1 reduced the expression of both proteins, revealing a positive feedback loop. In tissue sections of GC, LATS2 and YAP1 were heterogeneous and co-expressed. The positive correlation between LATS2 and YAP1 was confirmed in the 38 hGECs of the CCLE. The expression of CTGF and CYR61 was also strongly correlated to LATS2, suggesting that LATS2 could also be a YAP1/TEAD target gene.hGECs of the CCLE. The expression of CTGF and CYR61 was also strongly correlated to LATS2, suggesting that LATS2 could also be a YAP1/TEAD target gene.Verteporfin (VP) disrupts the YAP1/TEAD interaction inhibiting its transcriptional activity. In vitro, using hGECs and cells from patient derived primary tumor xenogratfs (PDXs), we showed that treatment with VP decreased cell growth, expression of YAP1/TAZ/TEAD target genes, TEAD-luciferase reporter activity and sphere-forming capacity. The activity of VP was tested in vivo, by peritumoral injection in a model of subcutaneous graft of hGECs (MKN45 and MKN74) and PDX (GC10) in NGS mice. Tumor growth was followed and a decrease was observed. Tumor weight measurement, IHC analysis (CD44, ALDH and Ki67), and CSCs were decreased in treated tumors. These results show the CSC-inhibitory activity of VP both in vitro and in vivo.We showed for the first time that the LATS2/YAP1/TEAD axis is early activated during the carcinogenesis process induced by chronic H. pylori infection and controls the subsequent EMT and CSC-like features. Targeting the Hippo pathway efficiently prevented tumor growth in a PDX model, highlighting the potential of its inhibition to be implemented in gastric cancer therapy. Cellules souches gastriques Transition épithélio-mésenchymateuse CD44 Cancer stem cells Epithelial to mesenchymal transition CD44
12	The role of hCLCA2 and hCLCA4 in suppression of breast cancer progression Yu, Yang 01 May 2014 (has links) hCLCA2 and hCLCA4 are chloride channel regulators that are expressed in normal breast epithelial cells and frequently downregulated in breast cancers. Recent investigations revealed that these two proteins may have a role in suppressing breast cancer progression. In this thesis, I will address their role in maintaining epithelial differentiating and inhibiting cell proliferation of breast epithelial cells. The epithelial to mesenchymal transition (EMT) is a developmental program in which epithelial cells downregulate their cell-cell junctions, acquire spindle cell morphology and exhibit cellular motility. In breast cancer, EMT facilitates invasion of surrounding tissues and correlates closely with cancer metastasis and relapse. We found previously that the candidate tumor suppressor hCLCA2 is a p53-inducible proliferation-inhibitor that is frequently lost in breast cancer. We show here that another member of the CLCA gene family, hCLCA4, is expressed in mammary epithelial cells and is similarly downregulated in breast tumors and in breast cancer cell lines. Like CLCA2, the gene is stress-inducible, and ectopic expression inhibits colony formation. Transcriptional profiling studies revealed that hCLCA4 and hCLCA2 together are markers for mammary epithelial differentiation, and both are downregulated by TGF beta. Moreover, knockdown of either on in immortalized cells by shRNAs caused downregulation of epithelial marker E-cadherin, while mesenchymal markers N-cadherin, vimentin, and fibronectin were upregulated, indicating an EMT program. Double knockdown of hCLCA2 and hCLCA4 enhanced the mesenchymal profile. These findings suggest that hCLCA4 and hCLCA2 play complementary but distinct roles in epithelial differentiation. Clinically, low expression of hCLCA2 and hCLCA4 signaled lower relapse-free survival in breast cancers. Cellular senescence is a program of irreversible cell cycle arrest in response to stressors such as DNA damage, ROS, telomere erosion, or oncogene activation. It is one of the primary tumor suppression mechanisms mediated by p53 and is often disabled in cancer cells. However, the downstream signaling pathway whereby p53 induces cellular senescence remains incomplete. We reported previously that hCLCA2 was a p53 inducible gene that is downregulated with breast cancer progression. We and other group noticed that hCLCA2 was induced in parallel with several types of senescence. Lentiviral transduction of CLCA2 into MCF7 cells inhibited cell proliferation and cells showed senescence phenotype. To investigate the mechanism biochemically, we used pAd-Easy to express hCLCA2 in the model breast cancer cell line CA1d. A protein expression profile of these cells over a 6 day period revealed induction of p21, p53, and the DNA damage-response pathway. To test whether hCLCA2 is required for the cellular senescence process, hCLCA2 was knocked down in HMLE. The knockdown cells (KD) and negative control were treated with a low concentration of doxorubicin, and cell proliferation was measured. The KD cells were more resistant to growth inhibition by doxorubicin. Moreover, a time course experiment showed that induction of SA beta-galactosidase, DNA damage response, and lysosomal markers IFI30 and CTSS was delayed in the knockdown cells. These results suggest that hCLCA2 plays an important role in DNA damage response and the senescence program. breast cancer CLCA DNA damage response Epithelial to mesenchymal transition metastasis senescence
13	Molekulare Mechanismen der antiproliferativen und antifibrotischen Wirkung von Mycophenolsäure in vitro / Molecular mechanisms of the antiproliferative and antifibrotic action of mycophenolic acid in vitro Koch, Christian 17 January 2018 (has links) No description available. 610 epithelial to mesenchymal transition growth factors kidney fibrosis mycophenolic acid transformation Medizin (PPN619874732)
14	Bio-CAD - Etude de biomarqueurs de progression tumorale dans les cancers des voies aéro-digestives supérieures en fonction de leur statut HPV. / Bio-CAD - Study of tumor progression biomarkers in upper aerodigestive tract cancers according to their HPV status. Mourareau, Céline 09 December 2016 (has links) Chaque année 610 000 cancers sont diagnostiqués dans le monde induits par une infection à papillomavirus humains à haut-risque (HPV-HR). Bien que les carcinomes des voies aéro-digestives supérieures (VADS) soient principalement associés à une forte consommation de tabac et d’alcool, 20 à 25% sont causés par une infection à HPV, particulièrement l’HPV de type 16. Les patients HPV positifs présentent un meilleur survi global, pourtant ils sont diagnostiqués avec plus de métastases à distance que les patients HPV négatifs. Au travers d’une étude sur des lignées cellulaires dérivées des VADS, nous avons montré que toutes les lignées cellulaires HPV+ présentaient une intégration du génome d’HPV au sein du génome cellulaire, avec des profils d’intégration différents. Les lignées pouvant être utilisées comme modèles caractéristiques des tumeurs HPV+ et HPV- sont respectivement les lignées UPCI:SCC090 et FaDu. La première par ses capacités migratoire et proliférative et la seconde par sa faible agressivité et une mutation du gène cellulaire p53. Dans une étude portant sur une série rétrospective de cancers de l’oropharynx éligible à une résection chirurgicale, 6 cancers sur 40 soit 15% présentaient une infection à HPV16 active (expression de l’ARNm E6I). Nous avons étudié les marqueurs de TEM dans ces cancers oropharyngés en fonction du statut HPV. Nous avons retrouvé une perte plus importante du marqueur épithélial cadhérine-E au sein du groupe HPV+, associée à une moins bonne survie globale.Au total, nous montrons que le statut HPV et les marqueurs de TEM semblent être deux facteurs indépendants, qui peuvent se combiner pour définir des niveaux pronostiques différents. / Each year, 610,000 cancers are diagnosed worldwide attributed to high risk human papillomavirus (HR-HPV) infection. Although head and neck squamous cell carcinoma (HNSCC) is mainly associated with tobacco and/or alcohol consumption, 20 to 25% are caused by HPV infection, particularly HPV type 16. Although patients with HPV+ tumors present a better overall survival, they are diagnosed with more lymph node metastasis than HPV-negative patients.Through a study of HNSCC derived cell lines, we showed that all HPV-positives cell lines harbored HPV genome integration through host genome, with different integration profiles. Cell lines identified as good HPV+ and HPV- tumors models are UPCI:SCC090 and FaDu respectively. The first one by its migratory and proliferative properties, the second through its poor aggressiveness and mutation of p53 cellular gene.In a study on a retrospective series of oropharyngeal carcinomas with surgical resection, 6 out of 40 cancers shown HPV16 active infection (expressing E6I mRNA). We studied epithelial-to-mesenchymal transition (EMT) markers on this oropharyngeal cancers, according to HPV status. We found a larger loss of epithelial marker E-cadherin in HPV+ group and loss of this marker is associated with a worse overall survival.We showed that HPV and EMT status seem to be two independent factors that could combine differently to define different prognostic levels. Carcinome Oropharynx Papillomavirus Humain Transition Epithélio-Mésenchymateuse Carcinoma Oropharynx Human Papillomavirus Epithelial-To-Mesenchymal Transition
15	A Novel Role for SLK in Transforming Growth Factor-Beta-Mediated Epithelial-to-Mesenchymal Transition Conway, Jillian January 2017 (has links) In the late stages of cancer, tumors acquire the ability to spread throughout the body and invade distant tissues in a process called metastasis. Studies have shown that metastasis is responsible for 90% of all cancer-related deaths, making this an important field of study. In breast cancers, 30% of patients overexpress the HER2 oncoprotein, causing a more invasive and metastatic disease. Invasion can be stimulated in vitro using the soluble ligand transforming growth factor-β (TGFβ) to induce a process called EMT (epithelial-to-mesenchymal transition), where epithelial cells transition into a migratory phenotype through cell-cell junction breakdown. SLK is a Ste20-like kinase that has been linked to many processes, including cell migration and signaling downstream of the HER2 receptor complex. Here we show that the cellular migration and invasion of TGFβ-treated normal mammary epithelial cells is significantly impaired in the absence of SLK. Additionally, immunofluorescence analyses demonstrate that SLK knockdown conditions decrease a cell’s ability to progress through EMT due to the visible staining of epithelial markers. We find that SLK-depleted cultures express significantly lower levels of Snail1,and fibronectin mRNA levels following TGF-β treatment. Surprisingly, our data demonstrates that SLK kinase activity is not activated downstream of TGF-β stimulation, and that a kinase-dead SLK rescues Snail1 mRNA expression levels. Together these data suggest that SLK plays a novel role in TGFβ-induced epithelial-to-mesenchymal transition in a kinase activity-independent manner. Epithelial-to-mesenchymal transition Ste20-like kinase Transforming Growth Factor-Beta
16	Statins may have double-edged effects in patients with lung adenocarcinoma after lung resection / スタチンは肺切除術後の肺腺がん患者において有益にも有害にもなりうる Nishikawa, Shigeto 23 July 2019 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第22005号 / 医博第4519号 / 新制\|\|医\|\|1038(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授平井豊博, 教授松原和夫, 教授萩原正敏 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM p53 epithelial to mesenchymal transition statin survival analysis non-small cell lung cancer 490
17	RUNX1 Control of Mammary Epithelial and Breast Cancer Cell Phenotypes Hong, Deli 12 December 2017 (has links) Breast cancer remains the most common malignant disease in women worldwide. Despite the advantages of early detection and improved treatments, studies into the mechanisms that initiate and drive breast cancer progression are still required. Recent studies have identified RUNX1, which is an essential transcription factor for hematopoiesis, is one of the most frequently mutated genes in breast cancer patients. However, the role of RUNX1 in the mammary gland is understudied. In this dissertation, we examined the role of RUNX1 in both normal mammary epithelial and breast cancer cells. Our in vitro studies demonstrated that RUNX1 inhibits epithelial to mesenchymal transition (EMT), migration, and invasion, reflecting its tumor suppressor activity, which was confirmed in vivo. Moreover, RUNX1 also contributes significantly to inhibition of the phenotypes of breast cancer stem cells (CSC), which is responsible for metastasis and tumor relapse. We showed that Runx1 overexpression reduces the tumorsphere formation and cancer stem cell population. Overall, our studies provide mechanistic evidence for RUNX1 repression of EMT in mammary cells, anti-tumor activity in vivo and regulation of CSC-like properties in breast cancer. Our results highlight crucial roles for RUNX1 in preventing epithelial to mesenchymal transition and tumor progression in breast cancer. This RUNX1 mediated mechanism points to novel intervention strategies for early stage breast cancer. Runx1 Breast Cancer Cancer Stem Cell Cancer Biology Cell Biology
18	The inhibitor of differentiation genes expression and association with epithelial-to-mesenchymal markers in phenotypes of breast cancer: an in vitro and clinicopathological study García-Escolano, Marta 27 September 2019 (has links) Inhibitor of Differentiation (ID) proteins are a family of four (ID1-4) bHLH transcription factors that lack the DNA binding domain. They act by forming dimers with other transcriptional regulators and inhibiting their interaction with DNA. They play a crucial role during embryonic development and later in the adulthood, their expression is mostly restricted to a few populations of stem cells. In the last decades, many authors have described their re-activation and participation in tumor development, angiogenesis and EMT although the results are still controversial. In the first chapter of this research work, the role of ID genes as prognostic markers in breast cancer was evaluated. We studied the mRNA expression of the four ID genes and four markers of EMT by qRT-PCR in a clinical series of 307 primary breast carcinomas previously stratified in immunophenotypes. In addition, the expression of all these genes was measured in breast cancer cell lines and mammospheres. Overexpression of at least one ID gene was found in 48.9% of the studied samples. ID1 and ID4 were overexpressed mostly in TNBL and HER2-enriched subtypes, whereas ID2 and ID3 were overexpressed more frequently in luminal tumors. High ID1 and ID4 was associated with larger tumor size, histological grade 3, presence of necrosis and vascular invasion, and poorer outcome. Multivariate analysis revealed that ID4 and vascular invasion were independent factors for DFS. Regarding EMT markers, high levels of SNAI1 were associated with the overexpression of the four ID genes. Additionally, ID1 overexpression was positively related to TWIST1, and the overexpression of ID2 and ID3 was more frequently paired with tumors that conserve CHD1 expression. In vitro studies showed high expression of the four ID genes in all cell lines. However, when mammospheres were formed, mRNA levels of ID genes decreased, in contrast to SNAI1 and TWIST1, which mostly increased. In the second chapter of this thesis, we aimed to (a) describe the mechanisms of action of a small molecule pan-ID antagonist, (b) define its main targets and (c) investigate potential pathways of acquire resistance. Treatment with AGX51 led to Id protein loss, increase in ROS accumulation, cell cycle arrest, and cell death in all tumor cell lines tested. Here, we used an antioxidant compound in different cell lines to demonstrate that ROS are the main responsible of cell death following treatment with AGX51. A model of cultured quiescent cells not expressing ID proteins served to show that the main target of AGX51 are these proteins. Experiments with AGX-derivatives also supported these results. Finally, three mutagenizing agents were used in order to generate mutations that confer resistance to treatment with AGX51. Treatment with ENU gave rise to two clones apparently resistant to AGX51 effects. Based on our in vitro and clinicopathological studies, we conclude that ID1 and ID4 may act as biomarkers of worse prognosis in patients with breast cancer, and seem to be involved in the initiation of EMT mechanism. Therefore, they are potential targets for the development of novel drugs. In line with this, AGX51 arises as a potent anti-ID compound that has anticancer effects. Inhibitor of differentiation genes Breast cancer Epithelial to mesenchymal transition Immunophenotype Inmunología
19	The role of BET proteins in castration-resistant prostate cancer dissemination Shafran, Jordan Seth 01 June 2020 (has links) The inevitable progression of advanced prostate cancer to castration resistance, and ultimately to lethal metastatic disease, depends on primary or acquired resistance to conventional androgen-deprivation therapy (ADT) and accumulated resistance mechanisms to evade androgen receptor (AR) suppression. Whereas the canonical androgen/AR signaling axis maintains prostate cell growth, differentiation and survival, in prostate cancer cells, AR adaptations that arise in response to ADT are not singular, but diverse, and include gene amplification, mutation and even complete loss of receptor expression. Collectively, each of these AR adaptations contributes to a complex, heterogenous, ADT-resistant tumor that culminates in prostate tumor cells transitioning from epithelial to mesenchymal states (EMT) and the development of metastatic castration-resistant prostate cancer (mCRPC). Here, we examined prostate cancer cell lines that model common CRPC subtypes, each with different AR composition, and focused on novel regulators of tumor progression, the Bromodomain and ExtraTerminal (BET – BRD2, BRD3 and BRD4) family of proteins, to test the hypothesis that each BET family member regulates EMT and underlying characteristics such as cell motility and invasiveness. We systematically manipulated the BET proteins and found that BRD4 regulates cell migration and invasion across all models of CRPC, regardless of aggressiveness and AR status, whereas BRD2 and BRD3 only regulate cell migration and invasion in less aggressive models that retain AR expression or signaling. We determined that BRD4’s contribution to this process occurs through the transcriptional regulation of AHNAK, SNAI1 and SNAI2, which are EMT genes linked to promotion of metastasis in a diverse set of cancers. Furthermore, treatment of CRPC cell lines with low doses of MZ1, a small-molecule, BRD4-selective degrader, inhibits EMT and metastatic potential. Overall, these results reveal a novel, BRD4-regulated EMT gene signature that may be targetable to treat metastatic castration-resistant prostate cancer. Molecular biology AHNAK BET proteins BRD4 Prostate cancer Snail and slug
20	Discerning The Role Of Krüppel-Like Factor 4 In Breast Cancer Yori, Jennifer L. January 2011 (has links) No description available. Biomedical Research Cellular Biology Pharmacology KLF4 E-cadherin Epithelial-to-Mesenchymal Transition breast cancer metastasis

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