Your search keyword '"Conidi, Andrea"' showing total 41 results

1. Local delivery of hrBMP4 as an anticancer therapy in patients with recurrent glioblastoma: a first-in-human phase 1 dose escalation trial

Author

Bos, Eelke M., Binda, Elena, Verploegh, Iris S.C., Wembacher, Eva, Hoefnagel, Daphna, Balvers, Rutger K., Korporaal, Anne L., Conidi, Andrea, Warnert, Esther A. H., Trivieri, Nadia, Visioli, Alberto, Zaccarini, Paola, Caiola, Laura, van Wijck, Rogier, van der Spek, Peter, Huylebroeck, Danny, Leenstra, Sieger, Lamfers, Martine L.M., Ram, Zvi, Westphal, Manfred, Noske, David, Legnani, Federico, DiMeco, Francesco, Vescovi, Angelo Luigi, and Dirven, Clemens M.F.

Published

2023

2. Data from Smad3 Is a Key Nonredundant Mediator of Transforming Growth Factor β Signaling in Nme Mouse Mammary Epithelial Cells

Author

Dzwonek, Joanna, primary, Preobrazhenska, Olena, primary, Cazzola, Silvia, primary, Conidi, Andrea, primary, Schellens, Ann, primary, van Dinther, Maarten, primary, Stubbs, Andrew, primary, Klippel, Anke, primary, Huylebroeck, Danny, primary, ten Dijke, Peter, primary, and Verschueren, Kristin, primary

Published

2023

3. Supplementary Data from Smad3 Is a Key Nonredundant Mediator of Transforming Growth Factor β Signaling in Nme Mouse Mammary Epithelial Cells

Author

Dzwonek, Joanna, primary, Preobrazhenska, Olena, primary, Cazzola, Silvia, primary, Conidi, Andrea, primary, Schellens, Ann, primary, van Dinther, Maarten, primary, Stubbs, Andrew, primary, Klippel, Anke, primary, Huylebroeck, Danny, primary, ten Dijke, Peter, primary, and Verschueren, Kristin, primary

Published

2023

4. Phenotype and genotype of 87 patients with Mowat–Wilson syndrome and recommendations for care

Author

Ivanovski, Ivan, Djuric, Olivera, Caraffi, Stefano Giuseppe, Santodirocco, Daniela, Pollazzon, Marzia, Rosato, Simonetta, Cordelli, Duccio Maria, Abdalla, Ebtesam, Accorsi, Patrizia, Adam, Margaret P, Ajmone, Paola Francesca, Badura-Stronka, Magdalena, Baldo, Chiara, Baldi, Maddalena, Bayat, Allan, Bigoni, Stefania, Bonvicini, Federico, Breckpot, Jeroen, Callewaert, Bert, Cocchi, Guido, Cuturilo, Goran, De Brasi, Daniele, Devriendt, Koenraad, Dinulos, Mary Beth, Hjortshøj, Tina Duelund, Epifanio, Roberta, Faravelli, Francesca, Fiumara, Agata, Formisano, Debora, Giordano, Lucio, Grasso, Marina, Grønborg, Sabine, Iodice, Alessandro, Iughetti, Lorenzo, Kuburovic, Vladimir, Kutkowska-Kazmierczak, Anna, Lacombe, Didier, Lo Rizzo, Caterina, Luchetti, Anna, Malbora, Baris, Mammi, Isabella, Mari, Francesca, Montorsi, Giulia, Moutton, Sebastien, Møller, Rikke S, Muschke, Petra, Nielsen, Jens Erik Klint, Obersztyn, Ewa, Pantaleoni, Chiara, Pellicciari, Alessandro, Pisanti, Maria Antonietta, Prpic, Igor, Poch-Olive, Maria Luisa, Raviglione, Federico, Renieri, Alessandra, Ricci, Emilia, Rivieri, Francesca, Santen, Gijs W, Savasta, Salvatore, Scarano, Gioacchino, Schanze, Ina, Selicorni, Angelo, Silengo, Margherita, Smigiel, Robert, Spaccini, Luigina, Sorge, Giovanni, Szczaluba, Krzysztof, Tarani, Luigi, Tone, Luis Gonzaga, Toutain, Annick, Trimouille, Aurelien, Valera, Elvis Terci, Vergano, Samantha Schrier, Zanotta, Nicoletta, Zenker, Martin, Conidi, Andrea, Zollino, Marcella, Rauch, Anita, Zweier, Christiane, and Garavelli, Livia

Published

2018

5. Supplementary Figure 1 from The Cytoskeleton Regulatory Protein hMena (ENAH) Is Overexpressed in Human Benign Breast Lesions with High Risk of Transformation and Human Epidermal Growth Factor Receptor-2–Positive/Hormonal Receptor–Negative Tumors

Author

Di Modugno, Francesca, primary, Mottolese, Marcella, primary, Di Benedetto, Anna, primary, Conidi, Andrea, primary, Novelli, Flavia, primary, Perracchio, Letizia, primary, Venturo, Irene, primary, Botti, Claudio, primary, Jager, Elke, primary, Santoni, Angela, primary, Natali, Pier Giorgio, primary, and Nisticò, Paola, primary

Published

2023

6. Supplementary Figure Legend from The Cytoskeleton Regulatory Protein hMena (ENAH) Is Overexpressed in Human Benign Breast Lesions with High Risk of Transformation and Human Epidermal Growth Factor Receptor-2–Positive/Hormonal Receptor–Negative Tumors

Author

Di Modugno, Francesca, primary, Mottolese, Marcella, primary, Di Benedetto, Anna, primary, Conidi, Andrea, primary, Novelli, Flavia, primary, Perracchio, Letizia, primary, Venturo, Irene, primary, Botti, Claudio, primary, Jager, Elke, primary, Santoni, Angela, primary, Natali, Pier Giorgio, primary, and Nisticò, Paola, primary

Published

2023

7. Zeb2 DNA-Binding Sites in Neuroprogenitor Cells Reveal Autoregulation and Affirm Neurodevelopmental Defects, Including in Mowat-Wilson Syndrome

Author

Birkhoff, Judith C., primary, Korporaal, Anne L., additional, Brouwer, Rutger W. W., additional, Nowosad, Karol, additional, Milazzo, Claudia, additional, Mouratidou, Lidia, additional, van den Hout, Mirjam C. G. N., additional, van IJcken, Wilfred F. J., additional, Huylebroeck, Danny, additional, and Conidi, Andrea, additional

Published

2023

8. Pro-Differentiation Anticancer Therapy Using Local Delivery of hrBMP4 in Patients with Recurrent Glioblastoma: A First-in-Human Phase 1 Dose Escalation Trial

Author

Bos, Eelke M., primary, Binda, Elena, additional, Verploegh, Iris S.C., additional, Wembacher-Schroeder, Eva, additional, Hoefnagel, Daphna, additional, Balvers, Rutger K., additional, Korporaal, Anne L., additional, Conidi, Andrea, additional, Warnert, Esther A.H., additional, Trivieri, Nadia, additional, Visioli, Alberto, additional, Zaccarini, Paola, additional, Caiola, Laura, additional, van Wijck, Rogier, additional, van der Spek, Peter J., additional, Huylebroeck, Danny, additional, Leenstra, Sieger, additional, Lamgers, Martine L.M., additional, Ram, Zvi, additional, Westphal, Manfred, additional, Noske, David, additional, Legnani, Federico, additional, DiMeco, Francesco, additional, Angelo Vescovi, Luigi, additional, and Dirven, Clemens M.F., additional

Published

2023

9. Chromatin architecture and cis-regulatory landscape of the DACT2-SMOC2 locus in the developing synovial joint

Author

Nowosad, Karol, primary, Hordyjewska-Kowalczyk, Ewa, additional, Malesa, Aneta, additional, Odrzywolski, Adrian, additional, Brouwer, Rutger W. W., additional, Kolovos, Petros, additional, Boltsis, Ilias, additional, Birkhoff, Judith C., additional, van IJcken, Wilfred F. J., additional, Grosveld, Frank G., additional, Conidi, Andrea, additional, Huylebroeck, Danny, additional, and Tylzanowski, Przemko, additional

Published

2022

10. Zeb2 recruits HDAC–NuRD to inhibit Notch and controls Schwann cell differentiation and remyelination

Author

Wu, Lai Man Natalie, Wang, Jincheng, Conidi, Andrea, Zhao, Chuntao, Wang, Haibo, Ford, Zachary, Zhang, Liguo, Zweier, Christiane, Ayee, Brian G, Maurel, Patrice, Zwijsen, An, Chan, Jonah R, Jankowski, Michael P, Huylebroeck, Danny, and Lu, Q Richard

Published

2016

11. Comparative single-cell RNA-sequencing profiling of BMP4-treated primary glioma cultures reveals therapeutic markers

Author

Verploegh, Iris S C, primary, Conidi, Andrea, additional, Brouwer, Rutger W W, additional, Balcioglu, Hayri E, additional, Karras, Panagiotis, additional, Makhzami, Samira, additional, Korporaal, Anne, additional, Marine, Jean-Christophe, additional, Lamfers, Martine, additional, Van IJcken, Wilfred F J, additional, Leenstra, Sieger, additional, and Huylebroeck, Danny, additional

Published

2022

12. Different E-box binding transcription factors, similar neuro-developmental defects: ZEB2 (Mowat-Wilson syndrome) and TCF4 (Pitt-Hopkins syndrome)

Author

Meert, Lize, primary, Birkhoff, Judith C., additional, Conidi, Andrea, additional, Poot, Raymond A., additional, and Huylebroeck, Danny, additional

Published

2022

13. Few Smad proteins and many Smad-interacting proteins yield multiple functions and action modes in TGFβ/BMP signaling in vivo

Author

Conidi, Andrea, Cazzola, Silvia, Beets, Karen, Coddens, Kathleen, Collart, Clara, Cornelis, Frederique, Cox, Luk, Joke, Debruyn, Dobreva, Mariya P., Dries, Ruben, Esguerra, Camila, Francis, Annick, Ibrahimi, Abdelilah, Kroes, Roel, Lesage, Flore, Maas, Elke, Moya, Ivan, Pereira, Paulo N.G., Stappers, Elke, Stryjewska, Agata, van den Berghe, Veronique, Vermeire, Liesbeth, Verstappen, Griet, Seuntjens, Eve, Umans, Lieve, Zwijsen, An, and Huylebroeck, Danny

Published

2011

14. Zeb2 DNA-binding sites in neuroprogenitor cells reveal autoregulation and affirm neurodevelopmental defects, including in Mowat-Wilson Syndrome

Author

Birkhoff, Judith C., primary, Korporaal, Anne L., additional, Brouwer, Rutger W.W., additional, Nowosad, Karol, additional, Milazzo, Claudia, additional, Mouratidou, Lidia, additional, van den Hout, Mirjam C.G.N., additional, van IJcken, Wilfred F.J., additional, Huylebroeck, Danny, additional, and Conidi, Andrea, additional

Published

2021

15. ZEB2, the Mowat-Wilson Syndrome Transcription Factor: Confirmations, Novel Functions, and Continuing Surprises

Author

Birkhoff, Judith C., primary, Huylebroeck, Danny, additional, and Conidi, Andrea, additional

Published

2021

16. NLS-tagging: an alternative strategy to tag nuclear proteins

Author

Giraud, Guillaume, Stadhouders, Ralph, Conidi, Andrea, Dekkers, Dick H.W., Huylebroeck, Danny, Demmers, Jeroen A.A., Soler, Eric, and Grosveld, Frank G.

Published

2014

17. Endothelial Zeb2 preserves the hepatic angioarchitecture and protects against liver fibrosis

Author

de Haan, Willeke, primary, Dheedene, Wouter, additional, Apelt, Katerina, additional, Décombas-Deschamps, Sofiane, additional, Vinckier, Stefan, additional, Verhulst, Stefaan, additional, Conidi, Andrea, additional, Deffieux, Thomas, additional, Staring, Michael W, additional, Vandervoort, Petra, additional, Caluwé, Ellen, additional, Lox, Marleen, additional, Mannaerts, Inge, additional, Takagi, Tsuyoshi, additional, Jaekers, Joris, additional, Berx, Geert, additional, Haigh, Jody, additional, Topal, Baki, additional, Zwijsen, An, additional, Higashi, Yujiro, additional, van Grunsven, Leo A, additional, van IJcken, Wilfred F J, additional, Mulugeta, Eskeatnaf, additional, Tanter, Mickael, additional, Lebrin, Franck P G, additional, Huylebroeck, Danny, additional, and Luttun, Aernout, additional

Published

2021

18. Endothelial Zeb2 preserves the hepatic angioarchitecture and protects against liver fibrosis.

Author

Haan, Willeke de, Dheedene, Wouter, Apelt, Katerina, Décombas-Deschamps, Sofiane, Vinckier, Stefan, Verhulst, Stefaan, Conidi, Andrea, Deffieux, Thomas, Staring, Michael W, Vandervoort, Petra, Caluwé, Ellen, Lox, Marleen, Mannaerts, Inge, Takagi, Tsuyoshi, Jaekers, Joris, Berx, Geert, Haigh, Jody, Topal, Baki, Zwijsen, An, and Higashi, Yujiro

Subjects

HEPATIC fibrosis, LIVER cells, CARBON tetrachloride, ENDOTHELIAL cells, TRANSCRIPTION factors

Abstract

Aims Hepatic capillaries are lined with specialized liver sinusoidal endothelial cells (LSECs) which support macromolecule passage to hepatocytes and prevent fibrosis by keeping hepatic stellate cells (HSCs) quiescent. LSEC specialization is co-determined by transcription factors. The zinc-finger E-box-binding homeobox (Zeb)2 transcription factor is enriched in LSECs. Here, we aimed to elucidate the endothelium-specific role of Zeb2 during maintenance of the liver and in liver fibrosis. Methods and results To study the role of Zeb2 in liver endothelium we generated EC-specific Zeb2 knock-out (ECKO) mice. Sequencing of liver EC RNA revealed that deficiency of Zeb2 results in prominent expression changes in angiogenesis-related genes. Accordingly, the vascular area was expanded and the presence of pillars inside ECKO liver vessels indicated that this was likely due to increased intussusceptive angiogenesis. LSEC marker expression was not profoundly affected and fenestrations were preserved upon Zeb2 deficiency. However, an increase in continuous EC markers suggested that Zeb2-deficient LSECs are more prone to dedifferentiation, a process called 'capillarization'. Changes in the endothelial expression of ligands that may be involved in HSC quiescence together with significant changes in the expression profile of HSCs showed that Zeb2 regulates LSEC–HSC communication and HSC activation. Accordingly, upon exposure to the hepatotoxin carbon tetrachloride (CCl4), livers of ECKO mice showed increased capillarization, HSC activation, and fibrosis compared to livers from wild-type littermates. The vascular maintenance and anti-fibrotic role of endothelial Zeb2 was confirmed in mice with EC-specific overexpression of Zeb2, as the latter resulted in reduced vascularity and attenuated CCl4-induced liver fibrosis. Conclusion Endothelial Zeb2 preserves liver angioarchitecture and protects against liver fibrosis. Zeb2 and Zeb2-dependent genes in liver ECs may be exploited to design novel therapeutic strategies to attenuate hepatic fibrosis. [ABSTRACT FROM AUTHOR]

Published

2022

19. Zeb2 regulates the balance between retinal interneurons and Müller glia by inhibition of BMP–Smad signaling

Author

Menuchin-Lasowski, Yotam, primary, Dagan, Bar, additional, Conidi, Andrea, additional, Cohen-Gulkar, Mazal, additional, David, Ahuvit, additional, Ehrlich, Marcelo, additional, Giladi, Pazit Oren, additional, Clark, Brian S., additional, Blackshaw, Seth, additional, Shapira, Keren, additional, Huylebroeck, Danny, additional, Henis, Yoav I., additional, and Ashery-Padan, Ruth, additional

Published

2020

20. Targeted chromatin conformation analysis identifies novel distal neural enhancers of ZEB2 in pluripotent stem cell differentiation

Author

Birkhoff, Judith C, primary, Brouwer, Rutger W W, additional, Kolovos, Petros, additional, Korporaal, Anne L, additional, Bermejo-Santos, Ana, additional, Boltsis, Ilias, additional, Nowosad, Karol, additional, van den Hout, Mirjam C G N, additional, Grosveld, Frank G, additional, van IJcken, Wilfred F J, additional, Huylebroeck, Danny, additional, and Conidi, Andrea, additional

Published

2020

21. Multifaceted actions of Zeb2 in postnatal neurogenesis from the ventricular-subventricular zone to the olfactory bulb

Author

Deryckere, Astrid, primary, Stappers, Elke, additional, Dries, Ruben, additional, Peyre, Elise, additional, van den Berghe, Veronique, additional, Conidi, Andrea, additional, Zampeta, F. Isabella, additional, Francis, Annick, additional, Bresseleers, Marjolein, additional, Stryjewska, Agata, additional, Vanlaer, Ria, additional, Maas, Elke, additional, Smal, Ihor V., additional, van IJcken, Wilfred F. J., additional, Grosveld, Frank G., additional, Nguyen, Laurent, additional, Huylebroeck, Danny, additional, and Seuntjens, Eve, additional

Published

2020

22. Integrative and perturbation-based analysis of the transcriptional dynamics of TGFβ/BMP system components in transition from embryonic stem cells to neural progenitors

Author

Dries, Ruben, primary, Stryjewska, Agata, additional, Coddens, Kathleen, additional, Okawa, Satoshi, additional, Notelaers, Tineke, additional, Birkhoff, Judith, additional, Dekker, Mike, additional, Verfaillie, Catherine M., additional, Sol, Antonio, additional, Mulugeta, Eskeatnaf, additional, Conidi, Andrea, additional, Grosveld, Frank G., additional, and Huylebroeck, Danny, additional

Published

2019

23. Multifaceted actions of Zeb2 in postnatal neurogenesis from the ventricularsubventricular zone to the olfactory bulb.

Author

Deryckere, Astrid, Stappers, Elke, Dries, Ruben, Peyre, Elise, van den Berghe, Veronique, Conidi, Andrea, Zampeta, F. Isabella, Francis, Annick, Bresseleers, Marjolein, Stryjewska, Agata, Vanlaer, Ria, Maas, Elke, Smal, Ihor V., van IJcken, Wilfred F. J., Grosveld, Frank G., Nguyen, Laurent, Huylebroeck, Danny, and Seuntjens, Eve

Subjects

OLFACTORY bulb, DEVELOPMENTAL neurobiology, SMAD proteins, NEURONAL differentiation, INTERNEURONS, FETAL tissues, NEURAL stem cells

Abstract

The transcription factor Zeb2 controls fate specification and subsequent differentiation and maturation of multiple cell types in various embryonic tissues. It binds many protein partners, including activated Smad proteins and the NuRD co-repressor complex. How Zeb2 subdomains support cell differentiation in various contexts has remained elusive. Here, we have studied the role of Zeb2 and its domains in neurogenesis and neural differentiation in the young postnatal ventricular-subventricular zone (V-SVZ), where neural stem cells generate olfactory bulb-destined interneurons. Conditional Zeb2 knockouts and separate acute loss- and gain-of-function approaches indicated that Zeb2 is essential to control apoptosis and neuronal differentiation of V-SVZ progenitors before and after birth, and identified Sox6 as Zeb2-dependent and potential downstream target gene. Zeb2 genetic inactivation impaired the differentiation potential of the VSVZ niche in a cell-autonomous fashion. We also provide evidence that its normal function in the VSVZ involves non-autonomous mechanisms as well. Additionally, we could demonstrate distinct roles for Zeb2 protein-binding domains, suggesting that Zeb2 partners co-determine neuronal output from the mouse V-SVZ in both quantitative and qualitative manners in early postnatal life. [ABSTRACT FROM AUTHOR]

Published

2020

24. Integrative and perturbation-based analysis of the transcriptional dynamics of TGFβ/BMP system components in transition from embryonic stem cells to neural progenitors.

Author

Dries, Ruben, Stryjewska, Agata, Coddens, Kathleen, Satoshi Okawa, Notelaers, Tineke, Birkhoff, Judith, Dekker, Mike, Verfaillie, Catherine M., del Sol, Antonio, Mulugeta, Eskeatnaf, Conidi, Andrea, Grosveld, Frank G., and Huylebroeck, Danny

Subjects

GENETIC transcription, TRANSFORMING growth factors-beta, BONE morphogenetic proteins, EMBRYONIC stem cells, EMBRYOLOGY, MESSENGER RNA

Abstract

Cooperative actions of extrinsic signals and cell-intrinsic transcription factors alter gene regulatory networks enabling cells to respond appropriately to environmental cues. Signaling by transforming growth factor type β (TGFβ) family ligands (eg, bone morphogenetic proteins [BMPs] and Activin/Nodal) exerts cell-type specific and context-dependent transcriptional changes, thereby steering cellular transitions throughout embryogenesis. Little is known about coordinated regulation and transcriptional interplay of the TGFβ system. To understand intrafamily transcriptional regulation as part of this system's actions during development, we selected 95 of its components and investigated their mRNA-expression dynamics, gene-gene interactions, and single-cell expression heterogeneity in mouse embryonic stem cells transiting to neural progenitors. Interrogation at 24 hour intervals identified four types of temporal gene transcription profiles that capture all stages, that is, pluripotency, epiblast formation, and neural commitment. Then, between each stage we performed esiRNA-based perturbation of each individual component and documented the effect on steady-state mRNA levels of the remaining 94 components. This exposed an intricate system of multilevel regulation whereby the majority of gene-gene interactions display a marked cell-stage specific behavior. Furthermore, single-cell RNA-profiling at individual stages demonstrated the presence of detailed co-expression modules and subpopulations showing stable co-expression modules such as that of the core pluripotency genes at all stages. Our combinatorial experimental approach demonstrates how intrinsically complex transcriptional regulation within a given pathway is during cell fate/state transitions. [ABSTRACT FROM AUTHOR]

Published

2020

25. CBIO-23. CHARACTERIZATION OF BMP SYSTEM MUTATIONS IN RECURRENT PRIMARY GLIOBLASTOMA PRIMARY CELL CULTURES IN RELATION TO GLIOBLASTOMA INITIATING STEM-LIKE CELLS AND TEMOZOLOMIDE RESISTANCE

Author

Verploegh, Iris, primary, Venkatesan, Mani, additional, Pierson, Tessa, additional, Conidi, Andrea, additional, Mulugeta, Eskeww, additional, Lamfers, Martine, additional, de Vrij, Jeroen, additional, Huylebroeck, Danny, additional, and Leenstra, Sieger, additional

Published

2017

26. Zeb2 controls the output of the young postnatal neurogenic niche

Author

Stappers, Elke, primary, Deryckere, Astrid, additional, Dries, Ruben, additional, Conidi, Andrea, additional, van den Berghe, Veronique, additional, Zampeta, Isabella Foteini-Izampela, additional, Peyre, Elise, additional, Stryjewska, Agata, additional, Francis, Annick, additional, Van Laer, Ria, additional, Kessaris, Nicoletta, additional, Nguyen, Laurent, additional, Huylebroeck, Danny, additional, and Seuntjens, Eve, additional

Published

2017

27. Differentiation of Mouse Enteric Nervous System Progenitor Cells Is Controlled by Endothelin 3 and Requires Regulation of Ednrb by SOX10 and ZEB2

Author

Watanabe, Yuli, primary, Stanchina, Laure, additional, Lecerf, Laure, additional, Gacem, Nadjet, additional, Conidi, Andrea, additional, Baral, Viviane, additional, Pingault, Veronique, additional, Huylebroeck, Danny, additional, and Bondurand, Nadege, additional

Published

2017

28. Zeb2 Regulates Cell Fate at the Exit from Epiblast State in Mouse Embryonic Stem Cells

Author

Stryjewska, Agata, primary, Dries, Ruben, additional, Pieters, Tim, additional, Verstappen, Griet, additional, Conidi, Andrea, additional, Coddens, Kathleen, additional, Francis, Annick, additional, Umans, Lieve, additional, van IJcken, Wilfred F. J., additional, Berx, Geert, additional, van Grunsven, Leo A., additional, Grosveld, Frank G., additional, Goossens, Steven, additional, Haigh, Jody J., additional, and Huylebroeck, Danny, additional

Published

2016

29. Smad-interacting-protein 1 (Sip1) contributes to the establishment of the postnatal neurogenic niche

Author

Stappers Elke, Van Den Berghe Veronique, Dries Ruben, Peyre Elise, Stryjewska Agata, Conidi Andrea, Francis Annick, Van IJcken Wilfred, Kessaris Nicoletta, Götz Magdalena, Nguyen Laurent, Huylebroeck Danny, and Seuntjens Eve

Subjects

General Neuroscience

Published

2015

30. Terminal NK cell maturation is controlled by concerted actions of T-bet and Zeb2 and is essential for melanoma rejection

Author

van Helden, Mary J., primary, Goossens, Steven, additional, Daussy, Cécile, additional, Mathieu, Anne-Laure, additional, Faure, Fabrice, additional, Marçais, Antoine, additional, Vandamme, Niels, additional, Farla, Natalie, additional, Mayol, Katia, additional, Viel, Sébastien, additional, Degouve, Sophie, additional, Debien, Emilie, additional, Seuntjens, Eve, additional, Conidi, Andrea, additional, Chaix, Julie, additional, Mangeot, Philippe, additional, de Bernard, Simon, additional, Buffat, Laurent, additional, Haigh, Jody, additional, Huylebroeck, Danny, additional, Lambrecht, Bart N., additional, Berx, Geert, additional, and Walzer, Thierry, additional

Published

2015

31. Zeb2 Regulates Cell Fate at the Exit from Epiblast State in Mouse Embryonic Stem Cells.

Author

Stryjewska, Agata, Dries, Ruben, Pieters, Tim, Verstappen, Griet, Conidi, Andrea, Coddens, Kathleen, Francis, Annick, Umans, Lieve, van IJcken, Wilfred F. J., Berx, Geert, van Grunsven, Leo A., Grosveld, Frank G., Goossens, Steven, Haigh, Jody J., and Huylebroeck, Danny

Abstract

A bstract In human embryonic stem cells (ESCs) the transcription factor Zeb2 regulates neuroectoderm versus mesendoderm formation, but it is unclear how Zeb2 affects the global transcriptional regulatory network in these cell-fate decisions. We generated Zeb2 knockout (KO) mouse ESCs, subjected them as embryoid bodies (EBs) to neural and general differentiation and carried out temporal RNA-sequencing (RNA-seq) and reduced representation bisulfite sequencing (RRBS) analysis in neural differentiation. This shows that Zeb2 acts preferentially as a transcriptional repressor associated with developmental progression and that Zeb2 KO ESCs can exit from their naïve state. However, most cells in these EBs stall in an early epiblast-like state and are impaired in both neural and mesendodermal differentiation. Genes involved in pluripotency, epithelial-to-mesenchymal transition (EMT), and DNA-(de)methylation, including Tet1, are deregulated in the absence of Zeb2. The observed elevated Tet1 levels in the mutant cells and the knowledge of previously mapped Tet1-binding sites correlate with loss-of-methylation in neural-stimulating conditions, however, after the cells initially acquired the correct DNA-methyl marks. Interestingly, cells from such Zeb2 KO EBs maintain the ability to re-adapt to 2i + LIF conditions even after prolonged differentiation, while knockdown of Tet1 partially rescues their impaired differentiation. Hence, in addition to its role in EMT, Zeb2 is critical in ESCs for exit from the epiblast state, and links the pluripotency network and DNA-methylation with irreversible commitment to differentiation. S tem C ells 2017;35:611-625 [ABSTRACT FROM AUTHOR]

Published

2017

32. Four Amino Acids within a Tandem QxVx Repeat in a Predicted Extended α-Helix of the Smad-Binding Domain of Sip1 Are Necessary for Binding to Activated Smad Proteins

Author

Conidi, Andrea, primary, van den Berghe, Veronique, additional, Leslie, Kris, additional, Stryjewska, Agata, additional, Xue, Hua, additional, Chen, Ye-Guang, additional, Seuntjens, Eve, additional, and Huylebroeck, Danny, additional

Published

2013

33. Aptamers and Their Potential to Selectively Target Aspects of EGF, Wnt/β-Catenin and TGFβ–Smad Family Signaling

Author

Conidi, Andrea, primary, van den Berghe, Veronique, additional, and Huylebroeck, Danny, additional

Published

2013

34. Directed Migration of Cortical Interneurons Depends on the Cell-Autonomous Action of Sip1

Author

van den Berghe, Veronique, primary, Stappers, Elke, additional, Vandesande, Bram, additional, Dimidschstein, Jordane, additional, Kroes, Roel, additional, Francis, Annick, additional, Conidi, Andrea, additional, Lesage, Flore, additional, Dries, Ruben, additional, Cazzola, Silvia, additional, Berx, Geert, additional, Kessaris, Nicoletta, additional, Vanderhaeghen, Pierre, additional, van IJcken, Wilfred, additional, Grosveld, Frank G., additional, Goossens, Steven, additional, Haigh, Jody J., additional, Fishell, Gord, additional, Goffinet, André, additional, Aerts, Stein, additional, Huylebroeck, Danny, additional, and Seuntjens, Eve, additional

Published

2013

35. The Cooperation between hMena Overexpression and HER2 Signalling in Breast Cancer

Author

Di Modugno, Francesca, primary, Mottolese, Marcella, additional, DeMonte, Lucia, additional, Trono, Paola, additional, Balsamo, Michele, additional, Conidi, Andrea, additional, Melucci, Elisa, additional, Terrenato, Irene, additional, Belleudi, Francesca, additional, Torrisi, Maria Rosaria, additional, Alessio, Massimo, additional, Santoni, Angela, additional, and Nisticò, Paola, additional

Published

2010

36. Smad3 Is a Key Nonredundant Mediator of Transforming Growth Factor β Signaling in Nme Mouse Mammary Epithelial Cells

Author

Dzwonek, Joanna, primary, Preobrazhenska, Olena, additional, Cazzola, Silvia, additional, Conidi, Andrea, additional, Schellens, Ann, additional, van Dinther, Maarten, additional, Stubbs, Andrew, additional, Klippel, Anke, additional, Huylebroeck, Danny, additional, ten Dijke, Peter, additional, and Verschueren, Kristin, additional

Published

2009

37. The Cytoskeleton Regulatory Protein hMena (ENAH) Is Overexpressed in Human Benign Breast Lesions with High Risk of Transformation and Human Epidermal Growth Factor Receptor-2–Positive/Hormonal Receptor–Negative Tumors

Author

Di Modugno, Francesca, primary, Mottolese, Marcella, additional, Di Benedetto, Anna, additional, Conidi, Andrea, additional, Novelli, Flavia, additional, Perracchio, Letizia, additional, Venturo, Irene, additional, Botti, Claudio, additional, Jager, Elke, additional, Santoni, Angela, additional, Natali, Pier Giorgio, additional, and Nisticò, Paola, additional

Published

2006

38. Terminal NK cell maturation is controlled by concerted actions of T-bet and Zeb2 and is essential for melanoma rejection

Author

van Helden, Mary J., Goossens, Steven, Daussy, Cécile, Mathieu, Anne-Laure, Faure, Fabrice, Marçais, Antoine, Vandamme, Niels, Farla, Natalie, Mayol, Katia, Viel, Sébastien, Degouve, Sophie, Debien, Emilie, Seuntjens, Eve, Conidi, Andrea, Chaix, Julie, Mangeot, Philippe, de Bernard, Simon, Buffat, Laurent, Haigh, Jody J., Huylebroeck, Danny, Lambrecht, Bart N., Berx, Geert, and Walzer, Thierry

Abstract

Natural killer (NK) cell maturation is a tightly controlled process that endows NK cells with functional competence and the capacity to recognize target cells. Here, we found that the transcription factor (TF) Zeb2 was the most highly induced TF during NK cell maturation. Zeb2 is known to control epithelial to mesenchymal transition, but its role in immune cells is mostly undefined. Targeted deletion of Zeb2 resulted in impaired NK cell maturation, survival, and exit from the bone marrow. NK cell function was preserved, but mice lacking Zeb2 in NK cells were more susceptible to B16 melanoma lung metastases. Reciprocally, ectopic expression of Zeb2 resulted in a higher frequency of mature NK cells in all organs. Moreover, the immature phenotype of Zeb2−/− NK cells closely resembled that of Tbx21−/− NK cells. This was caused by both a dependence of Zeb2 expression on T-bet and a probable cooperation of these factors in gene regulation. Transgenic expression of Zeb2 in Tbx21−/− NK cells partially restored a normal maturation, establishing that timely induction of Zeb2 by T-bet is an essential event during NK cell differentiation. Finally, this novel transcriptional cascade could also operate in human as T-bet and Zeb2 are similarly regulated in mouse and human NK cells.

Published

2015

39. Novel ZEB2 Targets and Regulatory Mechanisms in Development and Disease: A multi-omics approach

Author

Birkhoff, Judith, Huylebroeck, Danny, Conidi, Andrea, Poot, Raymond, and Cell biology

Published

2022

40. Endothelial Zeb2 preserves the hepatic angioarchitecture and protects against liver fibrosis.

Author

de Haan W, Dheedene W, Apelt K, Décombas-Deschamps S, Vinckier S, Verhulst S, Conidi A, Deffieux T, Staring MW, Vandervoort P, Caluwé E, Lox M, Mannaerts I, Takagi T, Jaekers J, Berx G, Haigh J, Topal B, Zwijsen A, Higashi Y, van Grunsven LA, van IJcken WFJ, Mulugeta E, Tanter M, Lebrin FPG, Huylebroeck D, and Luttun A

Subjects

Animals, Biomarkers metabolism, Endothelium, Hepatic Stellate Cells metabolism, Hepatic Stellate Cells pathology, Liver metabolism, Mice, Endothelial Cells metabolism, Liver Cirrhosis chemically induced, Liver Cirrhosis genetics, Liver Cirrhosis prevention & control

Abstract

Aims: Hepatic capillaries are lined with specialized liver sinusoidal endothelial cells (LSECs) which support macromolecule passage to hepatocytes and prevent fibrosis by keeping hepatic stellate cells (HSCs) quiescent. LSEC specialization is co-determined by transcription factors. The zinc-finger E-box-binding homeobox (Zeb)2 transcription factor is enriched in LSECs. Here, we aimed to elucidate the endothelium-specific role of Zeb2 during maintenance of the liver and in liver fibrosis., Methods and Results: To study the role of Zeb2 in liver endothelium we generated EC-specific Zeb2 knock-out (ECKO) mice. Sequencing of liver EC RNA revealed that deficiency of Zeb2 results in prominent expression changes in angiogenesis-related genes. Accordingly, the vascular area was expanded and the presence of pillars inside ECKO liver vessels indicated that this was likely due to increased intussusceptive angiogenesis. LSEC marker expression was not profoundly affected and fenestrations were preserved upon Zeb2 deficiency. However, an increase in continuous EC markers suggested that Zeb2-deficient LSECs are more prone to dedifferentiation, a process called 'capillarization'. Changes in the endothelial expression of ligands that may be involved in HSC quiescence together with significant changes in the expression profile of HSCs showed that Zeb2 regulates LSEC-HSC communication and HSC activation. Accordingly, upon exposure to the hepatotoxin carbon tetrachloride (CCl4), livers of ECKO mice showed increased capillarization, HSC activation, and fibrosis compared to livers from wild-type littermates. The vascular maintenance and anti-fibrotic role of endothelial Zeb2 was confirmed in mice with EC-specific overexpression of Zeb2, as the latter resulted in reduced vascularity and attenuated CCl4-induced liver fibrosis., Conclusion: Endothelial Zeb2 preserves liver angioarchitecture and protects against liver fibrosis. Zeb2 and Zeb2-dependent genes in liver ECs may be exploited to design novel therapeutic strategies to attenuate hepatic fibrosis., (© The Author(s) 2021. Published by Oxford University Press on behalf of the European Society of Cardiology.)

Published

2022

41. Smad3 is a key nonredundant mediator of transforming growth factor beta signaling in Nme mouse mammary epithelial cells.

Author

Dzwonek J, Preobrazhenska O, Cazzola S, Conidi A, Schellens A, van Dinther M, Stubbs A, Klippel A, Huylebroeck D, ten Dijke P, and Verschueren K

Subjects

Animals, Apoptosis drug effects, Cell Shape drug effects, Cytoskeleton drug effects, Cytoskeleton metabolism, Enzyme Induction drug effects, Epithelial Cells drug effects, Epithelial Cells enzymology, Female, Gene Expression Profiling, Gene Expression Regulation drug effects, Gene Knockdown Techniques, Humans, Intercellular Junctions drug effects, Intercellular Junctions metabolism, Matrix Metalloproteinases biosynthesis, Mice, Oligonucleotides, Antisense pharmacology, RNA, Messenger genetics, RNA, Messenger metabolism, Smad2 Protein genetics, Smad2 Protein metabolism, Smad3 Protein genetics, Epithelial Cells metabolism, Mammary Glands, Animal cytology, Signal Transduction drug effects, Smad3 Protein metabolism, Transforming Growth Factor beta metabolism

Abstract

Smad2 and Smad3 are intracellular mediators of transforming growth factor beta (TGFbeta) signaling that share various biochemical properties, but data emerging from functional analyses in several cell types indicate that these two Smad proteins may convey distinct cellular responses. Therefore, we have investigated the individual roles of Smad2 and Smad3 in mediating the cytostatic and proapoptotic effects of TGFbeta as well as their function in epithelial-to-mesenchymal transition. For this purpose, we transiently depleted mouse mammary epithelial cells (Nme) of Smad2 and/or Smad3 mainly by a strategy relying on RNaseH-induced degradation of mRNA. The effect of such depletion on hallmark events of TGFbeta-driven epithelial-to-mesenchymal transition was analyzed, including dissolution of epithelial junctions, formation of stress fibers and focal adhesions, activation of metalloproteinases, and transcriptional regulation of acknowledged target genes. Furthermore, we investigated the effect of Smad2 and Smad3 knockdown on the TGFbeta-regulated transcriptome by microarray analysis. Our results identify Smad3 as a key factor to trigger TGFbeta-regulated events and ascribe tumor suppressor as well as oncogenic activities to this protein.

Published

2009