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4. The transcription factor Zeb2 regulates development of conventional and plasmacytoid DCs by repressing Id2

Author

Scott, Charlotte, Soen, Bieke, Martens, Liesbet, Skrypek, Nicolas, Saelens, Wouter, Taminau, Joachim, Blancke, Gillian, Van Isterdael, Gert, Huylebroeck, Danny, Haigh, Jody, Saeys, Yvan, Guilliams, Martin, Lambrecht, Bart, Berx, Geert, Cell biology, and Pulmonary Medicine

Subjects
0301 basic medicine, BONE-MARROW, Plasma Cells, Immunology, FACTOR-BINDING SITES, CD11c, macromolecular substances, Biology, Mice, 03 medical and health sciences, 0302 clinical medicine, TERMINAL DIFFERENTIATION, Conditional gene knockout, Medicine and Health Sciences, Animals, Immunology and Allergy, Psychological repression, Transcription factor, IN-VIVO, Research Articles, SIGNALING CONTROLS, Inhibitor of Differentiation Protein 2, Zinc Finger E-box Binding Homeobox 2, Homeodomain Proteins, Mice, Knockout, Zinc finger, urogenital system, Brief Definitive Report, hemic and immune systems, INTESTINAL LAMINA PROPRIA, Dendritic Cells, CLONOGENIC PROGENITOR, Up-Regulation, 3. Good health, Repressor Proteins, DENDRITIC CELL-DEVELOPMENT, 030104 developmental biology, SUBSET DEVELOPMENT, FACTOR E2-2, Cancer research, IRF8, Chromatin immunoprecipitation, 030215 immunology
Abstract

Lambrecht et al. show that the transcription factor Zeb2 regulates commitment toward both the pDC and cDC2 lineages by repressing Id2., Plasmacytoid dendritic cells (DCs [pDCs]) develop from pre-pDCs, whereas two lineages of conventional DCs (cDCs; cDC1s and cDC2s) develop from lineage-committed pre-cDCs. Several transcription factors (TFs) have been implicated in regulating the development of pDCs (E2-2 and Id2) and cDC1s (Irf8, Id2, and Batf3); however, those required for the early commitment of pre-cDCs toward the cDC2 lineage are unknown. Here, we identify the TF zinc finger E box–binding homeobox 2 (Zeb2) to play a crucial role in regulating DC development. Zeb2 was expressed from the pre-pDC and pre-cDC stage onward and highly expressed in mature pDCs and cDC2s. Mice conditionally lacking Zeb2 in CD11c+ cells had a cell-intrinsic reduction in pDCs and cDC2s, coupled with an increase in cDC1s. Conversely, mice in which CD11c+ cells overexpressed Zeb2 displayed a reduction in cDC1s. This was accompanied by altered expression of Id2, which was up-regulated in cDC2s and pDCs from conditional knockout mice. Zeb2 chromatin immunoprecipitation analysis revealed Id2 to be a direct target of Zeb2. Thus, we conclude that Zeb2 regulates commitment to both the cDC2 and pDC lineages through repression of Id2.

Published
2016

5. MOESM3 of ZEB2 stably represses RAB25 expression through epigenetic regulation by SIRT1 and DNMTs during epithelial-to-mesenchymal transition

Author

Skrypek, Nicolas, Bruneel, Kenneth, Vandewalle, Cindy, Smedt, Eva, Bieke Soen, Loret, Nele, Taminau, Joachim, Goossens, Steven, Vandamme, Niels, and Berx, Geert

Abstract

Additional file 3: Figure S3. DNMT inhibitor 5-aza-2′-deoxycytidine de-repressed ZEB1, SNAI1 and SNAI2 EMT-TFs which targeted RAB25 expression. (a) RAB25 and CDH1 mRNA expression were measured by qRT-PCR 48 h after doxycycline withdrawal (+dox off) with 5-aza-2′-deoxycytidine (1 μM) (+dox/5-aza) and SIRT1 inhibitor (EX-527, 1 μM) (+dox/5-aza/EX-527). P values were determined using two-way ANOVA (***p

Published
2018
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6. The oncogenic receptor ErbB2 modulates gemcitabine and irinotecan/SN-38 chemoresistance of human pancreatic cancer cells via hCNT1 transporter and multidrug-resistance associated protein MRP-2

Author

Skrypek, Nicolas, Vasseur, Romain, Audrey Vincent, Duchene, Belinda, Seuningen, Isabelle, Jonckheere, Nicolas, Jonckheere, Nicolas, Centre de Recherche Jean-Pierre AUBERT Neurosciences et Cancer - U837 (JPArc), Université Lille Nord de France (COMUE)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lille, Centre de Recherche Jean-Pierre AUBERT Neurosciences et Cancer - U1172 Inserm - U837 (JPArc), and Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Lille Nord de France (COMUE)-Université de Lille

Subjects
Male, Antimetabolites, Antineoplastic, endocrine system diseases, Receptor, ErbB-2, pancreatic cancer, [SDV.CAN]Life Sciences [q-bio]/Cancer, Mice, SCID, Irinotecan, Transfection, Deoxycytidine, ErbB2, [SDV.CAN] Life Sciences [q-bio]/Cancer, Cell Line, Tumor, Antineoplastic Combined Chemotherapy Protocols, Databases, Genetic, Animals, Humans, RNA, Messenger, neoplasms, Cell Death, gemcitabine, Membrane Transport Proteins, chemoresistance, Xenograft Model Antitumor Assays, Multidrug Resistance-Associated Protein 2, digestive system diseases, Gene Expression Regulation, Neoplastic, Pancreatic Neoplasms, FOLFIRINOX, Drug Resistance, Neoplasm, Gene Knockdown Techniques, Camptothecin, RNA Interference, Multidrug Resistance-Associated Proteins, Signal Transduction, Research Paper
Abstract

International audience; Pancreatic adenocarcinoma (PDAC) is one of the most deadly cancers because of a lack of early diagnostic markers and efficient therapeutics. The fluorinated analog of deoxycytidine, gemcitabine and emerging FOLFIRINOX protocol (5-fluorouracil (5-FU), irinotecan/SN-38, oxaliplatin and leucovorin) are the main chemotherapies to treat PDAC. The ErbB2/HER2 oncogenic receptor is commonly overexpressed in PDAC. In this context, we aimed to decipher the ErbB2-mediated mechanisms of chemoresistance to the two main chemotherapy protocols used to treat PDAC.ErbB2 knocking down (KD) in CAPAN-1 and CAPAN-2 cells led to an increased sensitivity to gemcitabine and an increased resistance to irinotecan/SN-38 both in vitro and in vivo (subcutaneous xenografts) This was correlated to an increase of hCNT1 and hCNT3 transporters and ABCG2, MRP1 and MRP2 ATP-binding cassette transporters expression and resistance to cell death. We also show that MRP2 is repressed following activation of JNK, Erk1/2 and NF-κB pathways by ErbB2. Finally, in datasets of human PDAC samples, ErbB2 and MRP2 expression was conversely correlated. Altogether, we propose that ErbB2 mediates several intracellular mechanisms linked to PDAC cell chemoresistance that may represent potential targets in order to ameliorate chemotherapy response and allow stratification of patients eligible for either gemcitabine or FOLFIRINOX treatment.

Published
2015

7. Tissue factor induced by epithelial-mesenchymal transition triggers a procoagulant state that drives metastasis of circulating tumor cells

Author

Bourcy, Morgane, Suarez-Carmona, Meggy, Lambert, Justine, Francart, Marie-Emilie, Schroeder, Helene, Delierneux, Celine, Skrypek, Nicolas, Thompson, Rik, Jerusalem, Guy, Berx, Geert, Thiry, Marc, Blacher, Silvia, Hollier, Brett, Noel, Agnes, Oury, Cecile, Polette, Myriam, Gilles, Christine, Bourcy, Morgane, Suarez-Carmona, Meggy, Lambert, Justine, Francart, Marie-Emilie, Schroeder, Helene, Delierneux, Celine, Skrypek, Nicolas, Thompson, Rik, Jerusalem, Guy, Berx, Geert, Thiry, Marc, Blacher, Silvia, Hollier, Brett, Noel, Agnes, Oury, Cecile, Polette, Myriam, and Gilles, Christine

Abstract

Free to read Epithelial-mesenchymal transition (EMT) is prominent in circulating tumor cells (CTC), but how it influences metastatic spread in this setting is obscure. Insofar as blood provides a specific microenvironment for tumor cells, we explored a potential link between EMT and coagulation that may provide EMT-positive CTCs with enhanced colonizing properties. Here we report that EMT induces tissue factor (TF), a major cell-associated initiator of coagulation and related procoagulant properties in the blood. TF blockade by antibody or shRNA diminished the procoagulant activity of EMT-positive cells, confirming a functional role for TF in these processes. Silencing the EMT transcription factor ZEB1 inhibited both EMT-associated TF expression and coagulant activity, further strengthening the link between EMT and coagulation. Accordingly, EMT-positive cells exhibited a higher persistance/survival in the lungs of mice colonized after intravenous injection, a feature diminished by TF or ZEB1 silencing. In tumor cells with limited metastatic capability, enforcing expression of the EMT transcription factor Snail increased TF, coagulant properties, and early metastasis. Clinically, we identified a subpopulation of CTC expressing vimentin and TF in the blood of metastatic breast cancer patients consistent with our observations. Overall, our findings define a novel EMT-TF regulatory axis that triggers local activation of coagulation pathways to support metastatic colonization of EMT-positive CTCs. Cancer Res; 76(14); 1-13. (c)2016 AACR.

Published
2016

8. Epithelial-to-Mesenchymal Transition: Epigenetic Reprogramming Driving Cellular Plasticity.

Author

Skrypek, Nicolas, Goossens, Steven, De Smedt, Eva, Vandamme, Niels, and Berx, Geert

Subjects
*EPITHELIAL cells, *MESENCHYMAL stem cells, *EPIGENETICS, *PHENOTYPES, *TRANSCRIPTION factors
Abstract

Epithelial-to-mesenchymal transition (EMT) is a process in which epithelial cells lose their junctions and polarity to gain a motile mesenchymal phenotype. EMT is essential during embryogenesis and adult physiological processes like wound healing, but is aberrantly activated in pathological conditions like fibrosis and cancer. A series of transcription factors (EMT-inducing transcription factor; EMT-TF) regulate the induction of EMT by repressing the transcription of epithelial genes while activating mesenchymal genes through mechanisms still debated. The nuclear interaction of EMT-TFs with larger protein complexes involved in epigenetic genome modulation has attracted recent attention to explain functions of EMT-TFs during reprogramming and cellular differentiation. In this review, we discuss recent advances in understanding the interplay between epigenetic regulators and EMT transcription factors and how these findings could be used to establish new therapeutic approaches to tackle EMT-related diseases. [ABSTRACT FROM AUTHOR]

Published
2017
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9. The mucin MUC4 is a transcriptional and post-transcriptional target of K-ras oncogene in pancreatic cancer. Implication of MAPK/AP-1, NF-κB and RalB signaling pathways.

Author

Vasseur, Romain, Skrypek, Nicolas, Duchêne, Belinda, Renaud, Florence, Martínez-Maqueda, Daniel, Vincent, Audrey, Porchet, Nicole, Van Seuningen, Isabelle, and Jonckheere, Nicolas

Abstract

Copyright of BBA - Gene Regulatory Mechanisms is the property of Elsevier B.V. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2015
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10. Membrane-bound mucin modular domains: From structure to function.

Author

Jonckheere, Nicolas, Skrypek, Nicolas, Frénois, Frédéric, and Van Seuningen, Isabelle

Subjects
*MUCINS, *MEMBRANE proteins, *GLYCOPROTEINS, *OLIGOSACCHARIDES, *CELLULAR signal transduction, *CELL communication
Abstract

Abstract: Mucins belong to a heterogeneous family of large O-glycoproteins composed of a long peptidic chain called apomucin on which are linked hundreds of oligosaccharidic chains. Among mucins, membrane-bound mucins are modular proteins and have a structural organization usually containing Pro/Thr/Ser-rich O-glycosylated domains (PTS), EGF-like and SEA domains. Via these modular domains, the membrane-bound mucins participate in cell signalling and cell interaction with their environment in normal and pathological conditions. Moreover, the recent knowledge of these domains and their biological activities led to the development of new therapeutic approaches involving mucins. In this review, we show 3D structures of EGF and SEA domains. We also describe the functional features of the evolutionary conserved domains of membrane-bound mucins and discuss consequences of splice events. [Copyright &y& Elsevier]

Published
2013
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11. The Mucin MUC4 and Its Membrane Partner ErbB2 Regulate Biological Properties of Human CAPAN-2 Pancreatic Cancer Cells via Different Signalling Pathways.

Author

Jonckheere, Nicolas, Skrypek, Nicolas, Merlin, Johann, Dessein, Anne Frédérique, Dumont, Patrick, Leteurtre, Emmanuelle, Harris, Ann, Desseyn, Jean-Luc, Susini, Christiane, Frénois, Frédéric, and Van Seuningen, Isabelle

Subjects
*MUCINS, *GENETIC regulation, *CANCER cells, *PANCREATIC cancer, *ONCOGENES
Abstract

The mucin MUC4 and its membrane partner the ErbB2 oncogenic receptor are potential interacting partners in human pancreatic tumour development. However, the way they function is still largely unknown. In this work, we aimed to identify the cellular mechanisms and the intracellular signalling pathways under the control of both ErbB2 and MUC4 in a human pancreatic adenocarcinomatous cell line. Using co-immunoprecipitation and GST pull-down, we show that MUC4 and ErbB2 interact in the human pancreatic adenocarcinomatous cell line CAPAN-2 via the EGF domains of MUC4. Stable cell clones were generated in which either MUC4 or ErbB2 were knocked down (KD) by a shRNA approach. Biological properties of these cells were then studied in vitro and in vivo. Our results show that ErbB2-KD cells are more apoptotic and less proliferative (decreased cyclin D1 and increased p27kip1 expression) while migration and invasive properties were not altered. MUC4-KD clones were less proliferative with decreased cyclin D1 expression, G1 cell cycle arrest and altered ErbB2/ ErbB3 expression. Their migration properties were reduced whereas invasive properties were increased. Importantly, inhibition of ErbB2 and MUC4 expression did not impair the same signalling pathways (inhibition of MUC4 expression affected the JNK pathway whereas that of ErbB2 altered the MAPK pathway). Finally, ErbB2-KD and MUC4-KD cells showed impaired tumour growth in vivo. Our results show that ErbB2 and MUC4, which interact physically, activate different intracellular signalling pathways to regulate biological properties of CAPAN-2 pancreatic cancer cells. [ABSTRACT FROM AUTHOR]

Published
2012
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12. Mucins and Pancreatic Cancer.

Author

Jonckheere, Nicolas, Skrypek, Nicolas, and Van Seuningen, Isabelle

Subjects
*MUCINS, *PANCREATIC cancer, *BIOMARKERS, *GLYCOPROTEINS, *CANCER cells, *CARCINOGENESIS
Abstract

Pancreatic cancer is characterized by an often dramatic outcome (five year survival < 5%) related to a late diagnosis and a lack of efficient therapy. Therefore, clinicians desperately need new biomarkers and new therapeutic tools to develop new efficient therapies. Mucins belong to an ever increasing family of O-glycoproteins. Secreted mucins are the main component of mucus protecting the epithelia whereas membrane-bound mucins are thought to play important biological roles in cell-cell and cell-matrix interactions, in cell signaling and in modulating biological properties of cancer cells. In this review, we will focus on the altered expression pattern of mucins in pancreatic cancer, from the early neoplastic lesion Pancreatic Intraepithelial Neoplasia (PanIN) to invasive pancreatic carcinomas, and the molecular mechanisms (including genetic and epigenetic regulation) and signaling pathways known to control their expression. Moreover, we will discuss the recent advances about the biology of both secreted and membrane-bound mucins and their key roles in pancreatic carcinogenesis and resistance to therapy. Finally, we will discuss exciting opportunities that mucins offer as potential therapeutic targets in pancreatic cancer. [ABSTRACT FROM AUTHOR]

Published
2010
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13. The EGF Domains of MUC4 Oncomucin Mediate HER2 Binding Affinity and Promote Pancreatic Cancer Cell Tumorigenesis.

Author

Stoup, Nicolas, Liberelle, Maxime, Schulz, Céline, Cavdarli, Sumeyye, Vasseur, Romain, Magnez, Romain, Lahdaoui, Fatima, Skrypek, Nicolas, Peretti, Fabien, Frénois, Frédéric, Thuru, Xavier, Melnyk, Patricia, Renault, Nicolas, Jonckheere, Nicolas, Lebègue, Nicolas, and Van Seuningen, Isabelle

Subjects
PANCREATIC tumors, IN vitro studies, IN vivo studies, CELL migration, EPIDERMAL growth factor, ONCOGENES, WESTERN immunoblotting, MICROBIOLOGICAL assay, ONE-way analysis of variance, BIOINFORMATICS, GLYCOPROTEINS, CELL proliferation, RESEARCH funding, CELL lines
Abstract

Simple Summary: A feature of pancreatic cancer (PC) is the frequent overexpression of tyrosine kinase membrane receptor HER2 along with its membrane partner the MUC4 oncomucin in the early stages of the pancreatic carcinogenesis. However, therapeutic approaches targeting HER2 in PC are not efficient. MUC4 could indeed represent an alternative therapeutic strategy to target HER2 signaling pathway, but this approach needs to characterize MUC4/HER2 interaction at the molecular level. In this study, we successfully showed the impact of the EGF domains of MUC4 on HER2 binding affinity and demonstrated their "growth factor-like" biological activities in PC cells. Moreover, homology models of the MUC4EGF/HER2 complexes allowed identification of binding hotspots mediating binding affinity with HER2 and PC cell proliferation. These results allow a better understanding of the mechanisms involved in the MUC4/HER2 complex formation and may lead to the design of potential MUC4/HER2 inhibitors. The HER2 receptor and its MUC4 mucin partner form an oncogenic complex via an extracellular region of MUC4 encompassing three EGF domains that promotes tumor progression of pancreatic cancer (PC) cells. However, the molecular mechanism of interaction remains poorly understood. Herein, we decipher at the molecular level the role and impact of the MUC4EGF domains in the mediation of the binding affinities with HER2 and the PC cell tumorigenicity. We used an integrative approach combining in vitro bioinformatic, biophysical, biochemical, and biological approaches, as well as an in vivo study on a xenograft model of PC. In this study, we specified the binding mode of MUC4EGF domains with HER2 and demonstrate their "growth factor-like" biological activities in PC cells leading to stimulation of several signaling proteins (mTOR pathway, Akt, and β-catenin) contributing to PC progression. Molecular dynamics simulations of the MUC4EGF/HER2 complexes led to 3D homology models and identification of binding hotspots mediating binding affinity with HER2 and PC cell proliferation. These results will pave the way to the design of potential MUC4/HER2 inhibitors targeting the EGF domains of MUC4. This strategy will represent a new efficient alternative to treat cancers associated with MUC4/HER2 overexpression and HER2-targeted therapy failure as a new adapted treatment to patients. [ABSTRACT FROM AUTHOR]

Published
2021
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14. TGF-βRII Knock-down in Pancreatic Cancer Cells Promotes Tumor Growth and Gemcitabine Resistance. Importance of STAT3 Phosphorylation on S727.

Author

Drubay, Vincent, Skrypek, Nicolas, Cordiez, Lucie, Vasseur, Romain, Schulz, Céline, Boukrout, Nihad, Duchêne, Belinda, Coppin, Lucie, Van Seuningen, Isabelle, and Jonckheere, Nicolas

Subjects
*ADENOCARCINOMA, *ANTIMETABOLITES, *BIOMARKERS, *CELLULAR signal transduction, *DRUG resistance, *GENETIC mutation, *PANCREATIC tumors, *TRANSFORMING growth factors-beta, *TREATMENT effectiveness, *NEURAL pathways, *PHARMACODYNAMICS
Abstract

Pancreatic adenocarcinoma (PDAC) is one of the most deadly cancers in the Western world because of a lack of early diagnostic markers and efficient therapeutics. At the time of diagnosis, more than 80% of patients have metastasis or locally advanced cancer and are therefore not eligible for surgical resection. Pancreatic cancer cells also harbour a high resistance to chemotherapeutic drugs such as gemcitabine that is one of the main palliative treatments for PDAC. Proteins involved in TGF-β signaling pathway (SMAD4 or TGF-βRII) are frequently mutated in PDAC (50–80%). TGF-β signalling pathway plays antagonistic roles during carcinogenesis by initially inhibiting epithelial growth and later promoting the progression of advanced tumors and thus emerged as both tumor suppressor and oncogenic pathways. In order to decipher the role of TGF-β in pancreatic carcinogenesis and chemoresistance, we generated CAPAN-1 and CAPAN-2 cell lines knocked down for TGF-βRII (first actor of TGF-β signaling). The impact on biological properties of these TGF-βRII-KD cells was studied both in vitro and in vivo. We show that TGF-βRII silencing alters tumor growth and migration as well as resistance to gemcitabine. TGF-βRII silencing also leads to S727 STAT3 and S63 c-Jun phosphorylation, decrease of MRP3 and increase of MRP4 ABC transporter expression and induction of a partial EMT phenotype. These markers associated with TGF-β signaling pathways may thus appear as potent therapeutic tools to better treat/manage pancreatic cancer. [ABSTRACT FROM AUTHOR]

Published
2018
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16. DNA Methyltransferase 3B-Mediated Intratumoral Heterogeneity and Therapeutic Targeting in Breast Cancer Recurrence and Metastasis.

Author

So JY, Yang HH, Park WY, Skrypek N, Ishii H, Chen JM, Lee MP, and Yang L

Subjects
Animals, Humans, Mice, Cell Line, Tumor, Epithelial-Mesenchymal Transition genetics, Gene Expression Regulation, Neoplastic, Neoplasm Recurrence, Local genetics, DNA Methyltransferase 3B, DNA (Cytosine-5-)-Methyltransferases genetics, DNA (Cytosine-5-)-Methyltransferases metabolism, Triple Negative Breast Neoplasms drug therapy, Triple Negative Breast Neoplasms genetics, Triple Negative Breast Neoplasms metabolism
Abstract

The mechanisms of how cancer cells are selected and evolve to establish distant metastatic colonies remain unclear. Tumor heterogeneity and lack of biomarkers are some of the most difficult challenges in cancer biology and treatment. Here using mouse models for triple-negative breast cancer (TNBC) metastasis, we report heterogeneous expression of DNA methyltransferase 3B (DNMT3B) in both mouse and human primary tumors. High levels of DNMT3B were correlated with poor clinical outcomes in multiple human breast cancer datasets. Mechanistically, clonal cells with high DNMT3B (DNMT3BH) showed higher vimentin (VIM) expression and displayed enhanced epithelial-to-mesenchymal transition capacity. Deletion of VIM diminished the metastatic phenotype of DNMT3BH cells. Importantly, in preclinical mouse models in which the primary tumors were surgically removed, perioperative targeting of DNMT3B in combination with chemotherapy markedly suppressed tumor recurrence and metastasis. Our studies identify DNMT3B-mediated transcription regulation as an important mediator of tumor heterogeneity and show that DNMT3B is critical for tumor invasion and metastasis, reinforcing its potential as a target for treating metastatic disease., Implications: Our findings of transcriptome changes mediated by DNMT3B provide new mechanistic insight for intratumor heterogeneity and chemoresistance, and therapeutic targeting of DNMT3B in combination with chemotherapy offer additional treatment options for metastatic disease especially for patients with TNBC., (©2022 American Association for Cancer Research.)

Published
2022
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17. The EMT Transcription Factor ZEB2 Promotes Proliferation of Primary and Metastatic Melanoma While Suppressing an Invasive, Mesenchymal-Like Phenotype.

Author

Vandamme N, Denecker G, Bruneel K, Blancke G, Akay Ö, Taminau J, De Coninck J, De Smedt E, Skrypek N, Van Loocke W, Wouters J, Nittner D, Köhler C, Darling DS, Cheng PF, Raaijmakers MIG, Levesque MP, Mallya UG, Rafferty M, Balint B, Gallagher WM, Brochez L, Huylebroeck D, Haigh JJ, Andries V, Rambow F, Van Vlierberghe P, Goossens S, van den Oord JJ, Marine JC, and Berx G

Subjects
Animals, Humans, Lung Neoplasms genetics, Lung Neoplasms metabolism, Melanoma genetics, Melanoma metabolism, Mice, Neoplasm Invasiveness, Transcription Factors genetics, Tumor Cells, Cultured, Zinc Finger E-box Binding Homeobox 2 genetics, Cell Proliferation, Epithelial-Mesenchymal Transition, Gene Expression Regulation, Neoplastic, Lung Neoplasms secondary, Melanoma pathology, Transcription Factors metabolism, Zinc Finger E-box Binding Homeobox 2 metabolism
Abstract

Epithelial-to-mesenchymal transition (EMT)-inducing transcription factors (TF) are well known for their ability to induce mesenchymal states associated with increased migratory and invasive properties. Unexpectedly, nuclear expression of the EMT-TF ZEB2 in human primary melanoma has been shown to correlate with reduced invasion. We report here that ZEB2 is required for outgrowth for primary melanomas and metastases at secondary sites. Ablation of Zeb2 hampered outgrowth of primary melanomas in vivo , whereas ectopic expression enhanced proliferation and growth at both primary and secondary sites. Gain of Zeb2 expression in pulmonary-residing melanoma cells promoted the development of macroscopic lesions. In vivo fate mapping made clear that melanoma cells undergo a conversion in state where ZEB2 expression is replaced by ZEB1 expression associated with gain of an invasive phenotype. These findings suggest that reversible switching of the ZEB2/ZEB1 ratio enhances melanoma metastatic dissemination. SIGNIFICANCE: ZEB2 function exerts opposing behaviors in melanoma by promoting proliferation and expansion and conversely inhibiting invasiveness, which could be of future clinical relevance. GRAPHICAL ABSTRACT: http://cancerres.aacrjournals.org/content/canres/80/14/2983/F1.large.jpg., (©2020 American Association for Cancer Research.)

Published
2020
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18. Induction of DNMT3B by PGE2 and IL6 at Distant Metastatic Sites Promotes Epigenetic Modification and Breast Cancer Colonization.

Author

So JY, Skrypek N, Yang HH, Merchant AS, Nelson GW, Chen WD, Ishii H, Chen JM, Hu G, Achyut BR, Yoon EC, Han L, Huang C, Cam MC, Zhao K, Lee MP, and Yang L

Subjects
Animals, Antineoplastic Agents, Immunological pharmacology, Antineoplastic Agents, Immunological therapeutic use, Antineoplastic Combined Chemotherapy Protocols pharmacology, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Breast pathology, Breast Neoplasms drug therapy, Breast Neoplasms genetics, Cell Line, Tumor transplantation, Cyclooxygenase 2 metabolism, Cyclooxygenase 2 Inhibitors pharmacology, Cyclooxygenase 2 Inhibitors therapeutic use, Datasets as Topic, Disease Models, Animal, Disease Progression, Epigenesis, Genetic drug effects, Epigenesis, Genetic immunology, Female, Gene Expression Regulation, Neoplastic drug effects, Gene Expression Regulation, Neoplastic immunology, Gene Knockdown Techniques, Humans, Interleukin-6 antagonists & inhibitors, Lung Neoplasms drug therapy, Lung Neoplasms genetics, Mice, Programmed Cell Death 1 Receptor immunology, Proof of Concept Study, Signal Transduction drug effects, Signal Transduction genetics, Signal Transduction immunology, Tumor Microenvironment drug effects, Tumor Microenvironment genetics, Tumor Microenvironment immunology, DNA Methyltransferase 3B, Breast Neoplasms pathology, DNA (Cytosine-5-)-Methyltransferases metabolism, Dinoprostone metabolism, Interleukin-6 metabolism, Lung Neoplasms secondary
Abstract

Current cancer treatments are largely based on the genetic characterization of primary tumors and are ineffective for metastatic disease. Here we report that DNA methyltransferase 3B (DNMT3B) is induced at distant metastatic sites and mediates epigenetic reprogramming of metastatic tumor cells. Multiomics analysis and spontaneous metastatic mouse models revealed that DNMT3B alters multiple pathways including STAT3, NFκB, PI3K/Akt, β-catenin, and Notch signaling, which are critical for cancer cell survival, apoptosis, proliferation, invasion, and colonization. PGE2 and IL6 were identified as critical inflammatory mediators in DNMT3B induction. DNMT3B expression levels positively correlated with human metastatic progression. Targeting IL6 or COX-2 reduced DNMT3B induction and improved chemo or PD1 therapy. We propose a novel mechanism linking the metastatic microenvironment with epigenetic alterations that occur at distant sites. These results caution against the "Achilles heel" in cancer therapies based on primary tumor characterization and suggests targeting DNMT3B induction as new option for treating metastatic disease. SIGNIFICANCE: These findings reveal that DNMT3B epigenetically regulates multiple pro-oncogenic signaling pathways via the inflammatory microenvironment at distant sites, cautioning the clinical approach basing current therapies on genetic characterization of primary tumors., (©2020 American Association for Cancer Research.)

Published
2020
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19. Tissue Factor Induced by Epithelial-Mesenchymal Transition Triggers a Procoagulant State That Drives Metastasis of Circulating Tumor Cells.

Author

Bourcy M, Suarez-Carmona M, Lambert J, Francart ME, Schroeder H, Delierneux C, Skrypek N, Thompson EW, Jérusalem G, Berx G, Thiry M, Blacher S, Hollier BG, Noël A, Oury C, Polette M, and Gilles C

Subjects
Animals, Cell Line, Tumor, Female, Humans, Lung Neoplasms secondary, Mice, Mice, Inbred BALB C, Zinc Finger E-box-Binding Homeobox 1 physiology, Blood Coagulation, Epithelial-Mesenchymal Transition, Neoplastic Cells, Circulating pathology, Thromboplastin biosynthesis
Abstract

Epithelial-mesenchymal transition (EMT) is prominent in circulating tumor cells (CTC), but how it influences metastatic spread in this setting is obscure. Insofar as blood provides a specific microenvironment for tumor cells, we explored a potential link between EMT and coagulation that may provide EMT-positive CTCs with enhanced colonizing properties. Here we report that EMT induces tissue factor (TF), a major cell-associated initiator of coagulation and related procoagulant properties in the blood. TF blockade by antibody or shRNA diminished the procoagulant activity of EMT-positive cells, confirming a functional role for TF in these processes. Silencing the EMT transcription factor ZEB1 inhibited both EMT-associated TF expression and coagulant activity, further strengthening the link between EMT and coagulation. Accordingly, EMT-positive cells exhibited a higher persistance/survival in the lungs of mice colonized after intravenous injection, a feature diminished by TF or ZEB1 silencing. In tumor cells with limited metastatic capability, enforcing expression of the EMT transcription factor Snail increased TF, coagulant properties, and early metastasis. Clinically, we identified a subpopulation of CTC expressing vimentin and TF in the blood of metastatic breast cancer patients consistent with our observations. Overall, our findings define a novel EMT-TF regulatory axis that triggers local activation of coagulation pathways to support metastatic colonization of EMT-positive CTCs. Cancer Res; 76(14); 4270-82. ©2016 AACR., (©2016 American Association for Cancer Research.)

Published
2016
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20. The mucin MUC4 is a transcriptional and post-transcriptional target of K-ras oncogene in pancreatic cancer. Implication of MAPK/AP-1, NF-κB and RalB signaling pathways.

Author

Vasseur R, Skrypek N, Duchêne B, Renaud F, Martínez-Maqueda D, Vincent A, Porchet N, Van Seuningen I, and Jonckheere N

Subjects
Animals, Cell Line, Tumor, Cell Transformation, Neoplastic genetics, Epithelial Cells metabolism, Epithelial Cells pathology, Humans, Janus Kinases physiology, MAP Kinase Signaling System, Mice, Mice, Transgenic, Mucin-4 genetics, Mutation, Missense, NF-kappa B physiology, Neoplasm Proteins genetics, Neoplasm Proteins physiology, Pancreas metabolism, Pancreas pathology, Pancreatic Neoplasms metabolism, Pancreatic Neoplasms pathology, Point Mutation, Promoter Regions, Genetic, RNA Processing, Post-Transcriptional, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Transcription Factor AP-1 physiology, Transcription, Genetic, Up-Regulation, ral GTP-Binding Proteins physiology, Gene Expression Regulation, Neoplastic, Genes, ras, Mucin-4 biosynthesis, Neoplasm Proteins biosynthesis, Pancreatic Neoplasms genetics, Signal Transduction genetics
Abstract

The membrane-bound mucinMUC4 is a high molecularweight glycoprotein frequently deregulated in cancer. In pancreatic cancer, one of the most deadly cancers in occidental countries, MUC4 is neo-expressed in the preneoplastic stages and thereafter is involved in cancer cell properties leading to cancer progression and chemoresistance. K-ras oncogene is a small GTPase of the RAS superfamily, highly implicated in cancer. K-ras mutations are considered as an initiating event of pancreatic carcinogenesis and K-ras oncogenic activities are necessary components of cancer progression. However, K-ras remains clinically undruggable. Targeting early downstream K-ras signaling in cancer may thus appear as an interesting strategy and MUC4 regulation by K-ras in pancreatic carcinogenesis remains unknown. Using the Pdx1-Cre; LStopL-K-rasG12D mouse model of pancreatic carcinogenesis, we show that the in vivo early neo-expression of the mucin Muc4 in pancreatic intraepithelial neoplastic lesions (PanINs) induced by mutated K-ras is correlated with the activation of ERK, JNK and NF-κB signaling pathways. In vitro, transfection of constitutively activated K-rasG12V in pancreatic cancer cells led to the transcriptional upregulation of MUC4. This activation was found to be mediated at the transcriptional level by AP-1 and NF-κB transcription factors via MAPK, JNK and NF-κB pathways and at the posttranscriptional level by a mechanism involving the RalB GTPase. Altogether, these results identify MUC4 as a transcriptional and post-transcriptional target of K-ras in pancreatic cancer. This opens avenues in developing new approaches to target the early steps of this deadly cancer.

Published
2015
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21. The oncogenic receptor ErbB2 modulates gemcitabine and irinotecan/SN-38 chemoresistance of human pancreatic cancer cells via hCNT1 transporter and multidrug-resistance associated protein MRP-2.

Author

Skrypek N, Vasseur R, Vincent A, Duchêne B, Van Seuningen I, and Jonckheere N

Subjects
Animals, Antimetabolites, Antineoplastic metabolism, Camptothecin metabolism, Camptothecin pharmacology, Cell Death drug effects, Cell Line, Tumor, Databases, Genetic, Deoxycytidine metabolism, Deoxycytidine pharmacology, Gene Expression Regulation, Neoplastic, Gene Knockdown Techniques, Humans, Irinotecan, Male, Membrane Transport Proteins genetics, Mice, SCID, Multidrug Resistance-Associated Protein 2, Multidrug Resistance-Associated Proteins genetics, Pancreatic Neoplasms genetics, Pancreatic Neoplasms metabolism, Pancreatic Neoplasms pathology, RNA Interference, RNA, Messenger metabolism, Receptor, ErbB-2 genetics, Signal Transduction drug effects, Transfection, Xenograft Model Antitumor Assays, Gemcitabine, Antimetabolites, Antineoplastic pharmacology, Antineoplastic Combined Chemotherapy Protocols pharmacology, Camptothecin analogs & derivatives, Deoxycytidine analogs & derivatives, Drug Resistance, Neoplasm genetics, Membrane Transport Proteins metabolism, Multidrug Resistance-Associated Proteins metabolism, Pancreatic Neoplasms drug therapy, Receptor, ErbB-2 metabolism
Abstract

Pancreatic adenocarcinoma (PDAC) is one of the most deadly cancers because of a lack of early diagnostic markers and efficient therapeutics. The fluorinated analog of deoxycytidine, gemcitabine and emerging FOLFIRINOX protocol (5-fluorouracil (5-FU), irinotecan/SN-38, oxaliplatin and leucovorin) are the main chemotherapies to treat PDAC. The ErbB2/HER2 oncogenic receptor is commonly overexpressed in PDAC. In this context, we aimed to decipher the ErbB2-mediated mechanisms of chemoresistance to the two main chemotherapy protocols used to treat PDAC.ErbB2 knocking down (KD) in CAPAN-1 and CAPAN-2 cells led to an increased sensitivity to gemcitabine and an increased resistance to irinotecan/SN-38 both in vitro and in vivo (subcutaneous xenografts) This was correlated to an increase of hCNT1 and hCNT3 transporters and ABCG2, MRP1 and MRP2 ATP-binding cassette transporters expression and resistance to cell death. We also show that MRP2 is repressed following activation of JNK, Erk1/2 and NF-κB pathways by ErbB2. Finally, in datasets of human PDAC samples, ErbB2 and MRP2 expression was conversely correlated. Altogether, we propose that ErbB2 mediates several intracellular mechanisms linked to PDAC cell chemoresistance that may represent potential targets in order to ameliorate chemotherapy response and allow stratification of patients eligible for either gemcitabine or FOLFIRINOX treatment.

Published
2015
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22. Colon cancer cells escape 5FU chemotherapy-induced cell death by entering stemness and quiescence associated with the c-Yes/YAP axis.

Author

Touil Y, Igoudjil W, Corvaisier M, Dessein AF, Vandomme J, Monté D, Stechly L, Skrypek N, Langlois C, Grard G, Millet G, Leteurtre E, Dumont P, Truant S, Pruvot FR, Hebbar M, Fan F, Ellis LM, Formstecher P, Van Seuningen I, Gespach C, Polakowska R, and Huet G

Subjects
Antimetabolites, Antineoplastic therapeutic use, Biomarkers, Tumor metabolism, Cell Cycle Checkpoints, Cell Cycle Proteins, Cell Nucleus metabolism, Cell Proliferation, Checkpoint Kinase 2 metabolism, Chemotherapy, Adjuvant, Colonic Neoplasms drug therapy, Colonic Neoplasms mortality, Colonic Neoplasms pathology, Disease-Free Survival, Drug Resistance, Neoplasm, Fluorouracil therapeutic use, Gene Expression, HT29 Cells, Humans, Kaplan-Meier Estimate, Liver Neoplasms drug therapy, Liver Neoplasms mortality, Liver Neoplasms secondary, Neoadjuvant Therapy, Neoplasm Micrometastasis prevention & control, Neoplastic Stem Cells drug effects, Neoplastic Stem Cells metabolism, Nuclear Proteins genetics, Proportional Hazards Models, Protein Transport, Proto-Oncogene Proteins c-yes genetics, Transcription Factors genetics, Antimetabolites, Antineoplastic pharmacology, Colonic Neoplasms metabolism, Fluorouracil pharmacology, Liver Neoplasms metabolism, Nuclear Proteins metabolism, Proto-Oncogene Proteins c-yes metabolism, Transcription Factors metabolism
Abstract

Purpose: Metastasis and drug resistance are the major limitations in the survival and management of patients with cancer. This study aimed to identify the mechanisms underlying HT29 colon cancer cell chemoresistance acquired after sequential exposure to 5-fluorouracil (5FU), a classical anticancer drug for treatment of epithelial solid tumors. We examined its clinical relevance in a cohort of patients with colon cancer with liver metastases after 5FU-based neoadjuvant chemotherapy and surgery., Results: We show that a clonal 5F31 cell population, resistant to 1 μmol/L 5FU, express a typical cancer stem cell-like phenotype and enter into a reversible quiescent G0 state upon reexposure to higher 5FU concentrations. These quiescent cells overexpressed the tyrosine kinase c-Yes that became activated and membrane-associated upon 5FU exposure. This enhanced signaling pathway induced the dissociation of the Yes/YAP (Yes-associated protein) molecular complex and depleted nuclear YAP levels. Consistently, YES1 silencing decreased nuclear YAP accumulation and induced cellular quiescence in 5F31 cells cultured in 5FU-free medium. Importantly, YES1 and YAP transcript levels were higher in liver metastases of patients with colon cancer after 5FU-based neoadjuvant chemotherapy. Moreover, the YES1 and YAP transcript levels positively correlated with colon cancer relapse and shorter patient survival (P < 0.05 and P < 0.025, respectively)., Conclusions: We identified c-Yes and YAP as potential molecular targets to eradicate quiescent cancer cells and dormant micrometastases during 5FU chemotherapy and resistance and as predictive survival markers for colon cancer., (©2013 AACR)

Published
2014
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