Your search keyword '"Eilers, Martin"' showing total 849 results

1. USP10 drives cancer stemness and enables super-competitor signalling in colorectal cancer

Author

Reissland, Michaela, Hartmann, Oliver, Tauch, Saskia, Bugter, Jeroen M., Prieto-Garcia, Cristian, Schulte, Clemens, Loebbert, Sinah, Solvie, Daniel, Bitman-Lotan, Eliya, Narain, Ashwin, Jacomin, Anne-Claire, Schuelein-Voelk, Christina, Fuss, Carmina T., Pahor, Nikolett, Ade, Carsten, Buck, Viktoria, Potente, Michael, Li, Vivian, Beliu, Gerti, Wiegering, Armin, Grossmann, Tom, Eilers, Martin, Wolf, Elmar, Maric, Hans, Rosenfeldt, Mathias, Maurice, Madelon M., Dikic, Ivan, Gallant, Peter, Orian, Amir, and Diefenbacher, Markus E.

Published

2024

2. PAF1c links S-phase progression to immune evasion and MYC function in pancreatic carcinoma

Author

Gaballa, Abdallah, Gebhardt-Wolf, Anneli, Krenz, Bastian, Mattavelli, Greta, John, Mara, Cossa, Giacomo, Andreani, Silvia, Schülein-Völk, Christina, Montesinos, Francisco, Vidal, Raphael, Kastner, Carolin, Ade, Carsten P., Kneitz, Burkhard, Gasteiger, Georg, Gallant, Peter, Rosenfeldt, Mathias, Riedel, Angela, and Eilers, Martin

Published

2024

3. The MYCN oncoprotein is an RNA-binding accessory factor of the nuclear exosome targeting complex

Author

Papadopoulos, Dimitrios, Ha, Stefanie Anh, Fleischhauer, Daniel, Uhl, Leonie, Russell, Timothy J., Mikicic, Ivan, Schneider, Katharina, Brem, Annika, Valanju, Omkar Rajendra, Cossa, Giacomo, Gallant, Peter, Schuelein-Voelk, Christina, Maric, Hans Michael, Beli, Petra, Büchel, Gabriele, Vos, Seychelle M., and Eilers, Martin

Published

2024

4. USP28 controls SREBP2 and the mevalonate pathway to drive tumour growth in squamous cancer

Author

Maier, Carina R., Hartmann, Oliver, Prieto-Garcia, Cristian, Al-Shami, Kamal M., Schlicker, Lisa, Vogel, Felix C. E., Haid, Silke, Klann, Kevin, Buck, Viktoria, Münch, Christian, Schmitz, Werner, Einig, Elias, Krenz, Bastian, Calzado, Marco A., Eilers, Martin, Popov, Nikita, Rosenfeldt, Mathias T., Diefenbacher, Markus E., and Schulze, Almut

Published

2023

5. Drugging the “Undruggable” MYCN Oncogenic Transcription Factor: Overcoming Previous Obstacles to Impact Childhood Cancers

Author

Wolpaw, Adam J, Bayliss, Richard, Büchel, Gabriele, Dang, Chi V, Eilers, Martin, Gustafson, W Clay, Hansen, Gwenn H, Jura, Natalia, Knapp, Stefan, Lemmon, Mark A, Levens, David, Maris, John M, Marmorstein, Ronen, Metallo, Steven J, Park, Julie R, Penn, Linda Z, Rape, Michael, Roussel, Martine F, Shokat, Kevan M, Tansey, William P, Verba, Kliment A, Vos, Seychelle M, Weiss, William A, Wolf, Elmar, and Mossé, Yaël P

Subjects

Genetics, Neuroblastoma, Neurosciences, Rare Diseases, Pediatric Research Initiative, Pediatric Cancer, Cancer, Pediatric, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Age of Onset, Antineoplastic Agents, Child, Drug Discovery, Drug Resistance, Neoplasm, Drug Screening Assays, Antitumor, Gene Expression Regulation, Neoplastic, History, 20th Century, History, 21st Century, Humans, N-Myc Proto-Oncogene Protein, Neoplasms, Therapies, Investigational, Oncology and Carcinogenesis, Oncology & Carcinogenesis

Abstract

Effective treatment of pediatric solid tumors has been hampered by the predominance of currently "undruggable" driver transcription factors. Improving outcomes while decreasing the toxicity of treatment necessitates the development of novel agents that can directly inhibit or degrade these elusive targets. MYCN in pediatric neural-derived tumors, including neuroblastoma and medulloblastoma, is a paradigmatic example of this problem. Attempts to directly and specifically target MYCN have failed due to its similarity to MYC, the unstructured nature of MYC family proteins in their monomeric form, the lack of an understanding of MYCN-interacting proteins and ability to test their relevance in vivo, the inability to obtain structural information on MYCN protein complexes, and the challenges of using traditional small molecules to inhibit protein-protein or protein-DNA interactions. However, there is now promise for directly targeting MYCN based on scientific and technological advances on all of these fronts. Here, we discuss prior challenges and the reasons for renewed optimism in directly targeting this "undruggable" transcription factor, which we hope will lead to improved outcomes for patients with pediatric cancer and create a framework for targeting driver oncoproteins regulating gene transcription.

Published

2021

6. Beyond gene expression: how MYC relieves transcription stress

Author

Papadopoulos, Dimitrios, Uhl, Leonie, Ha, Stefanie Anh, and Eilers, Martin

Published

2023

7. MYC multimers shield stalled replication forks from RNA polymerase

Author

Solvie, Daniel, Baluapuri, Apoorva, Uhl, Leonie, Fleischhauer, Daniel, Endres, Theresa, Papadopoulos, Dimitrios, Aziba, Amel, Gaballa, Abdallah, Mikicic, Ivan, Isaakova, Ekaterina, Giansanti, Celeste, Jansen, Jennifer, Jungblut, Marvin, Klein, Teresa, Schülein-Völk, Christina, Maric, Hans, Doose, Sören, Sauer, Markus, Beli, Petra, Rosenwald, Andreas, Dobbelstein, Matthias, Wolf, Elmar, and Eilers, Martin

Published

2022

8. MYC determines lineage commitment in KRAS-driven primary liver cancer development

Author

D’Artista, Luana, Moschopoulou, Athina Anastasia, Barozzi, Iros, Craig, Amanda J., Seehawer, Marco, Herrmann, Lea, Minnich, Martina, Kang, Tae-Won, Rist, Elke, Henning, Melanie, Klotz, Sabrina, Heinzmann, Florian, Harbig, Jule, Sipos, Bence, Longerich, Thomas, Eilers, Martin, Dauch, Daniel, Zuber, Johannes, Wang, Xin Wei, and Zender, Lars

Published

2023

9. LRP8‐mediated selenocysteine uptake is a targetable vulnerability in MYCN‐amplified neuroblastoma

Author

Alborzinia, Hamed, Chen, Zhiyi, Yildiz, Umut, Freitas, Florencio Porto, Vogel, Felix C E, Varga, Julianna Patricia, Batani, Jasmin, Bartenhagen, Christoph, Schmitz, Werner, Büchel, Gabriele, Michalke, Bernhard, Zheng, Jashuo, Meierjohann, Svenja, Girardi, Enrico, Espinet, Elisa, Flórez, Andrés F, dos Santos, Ancely Ferreira, Aroua, Nesrine, Cheytan, Tasneem, Haenlin, Julie, Schlicker, Lisa, Xavier da Silva, Thamara N, Przybylla, Adriana, Zeisberger, Petra, Superti‐Furga, Giulio, Eilers, Martin, Conrad, Marcus, Fabiano, Marietta, Schweizer, Ulrich, Fischer, Matthias, Schulze, Almut, Trumpp, Andreas, and Friedmann Angeli, José Pedro

Published

2023

10. MYC promotes immune-suppression in triple-negative breast cancer via inhibition of interferon signaling

Author

Zimmerli, Dario, Brambillasca, Chiara S., Talens, Francien, Bhin, Jinhyuk, Linstra, Renske, Romanens, Lou, Bhattacharya, Arkajyoti, Joosten, Stacey E. P., Da Silva, Ana Moises, Padrao, Nuno, Wellenstein, Max D., Kersten, Kelly, de Boo, Mart, Roorda, Maurits, Henneman, Linda, de Bruijn, Roebi, Annunziato, Stefano, van der Burg, Eline, Drenth, Anne Paulien, Lutz, Catrin, Endres, Theresa, van de Ven, Marieke, Eilers, Martin, Wessels, Lodewyk, de Visser, Karin E., Zwart, Wilbert, Fehrmann, Rudolf S. N., van Vugt, Marcel A. T. M., and Jonkers, Jos

Published

2022

11. Immune evasion: An imperative and consequence of MYC deregulation.

Author

Krenz, Bastian, Lee, Jongkuen, Kannan, Toshitha, and Eilers, Martin

Abstract

MYC has been implicated in the pathogenesis of a wide range of human tumors and has been described for many years as a transcription factor that regulates genes with pleiotropic functions to promote tumorigenic growth. However, despite extensive efforts to identify specific target genes of MYC that alone could be responsible for promoting tumorigenesis, the field is yet to reach a consensus whether this is the crucial function of MYC. Recent work shifts the view on MYC's function from being a gene‐specific transcription factor to an essential stress resilience factor. In highly proliferating cells, MYC preserves cell integrity by promoting DNA repair at core promoters, protecting stalled replication forks, and/or preventing transcription‐replication conflicts. Furthermore, an increasing body of evidence demonstrates that MYC not only promotes tumorigenesis by driving cell‐autonomous growth, but also enables tumors to evade the host's immune system. In this review, we summarize our current understanding of how MYC impairs antitumor immunity and why this function is evolutionarily hard‐wired to the biology of the MYC protein family. We show why the cell‐autonomous and immune evasive functions of MYC are mutually dependent and discuss ways to target MYC proteins in cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2024

12. Targeting MYC effector functions in pancreatic cancer by inhibiting the ATPase RUVBL1/2.

Author

Vogt, Markus, Stankovic, Nevenka Dudvarski, Garcia, Yiliam Cruz, Hofstetter, Julia, Schneider, Katharina, Kuybu, Filiz, Hauck, Theresa, Adhikari, Bikash, Hamann, Anton, Rocca, Yamila, Grysczyk, Lara, Martin, Benedikt, Gebhardt-Wolf, Anneli, Wiegering, Armin, Diefenbacher, Markus, Gasteiger, Georg, Knapp, Stefan, Saur, Dieter, Eilers, Martin, and Rosenfeldt, Mathias

Subjects

GENE expression, MOLECULAR biology, NF-kappa B, GREEN fluorescent protein, DNA-binding proteins, TRANSCRIPTION factors, PANCREATIC tumors, TRANSFORMING growth factors

Published

2024

13. eLife assessment: Ribosome subunit attrition and activation of the p53–MDM4 axis dominate the response of MLL-rearranged cancer cells to WDR5 WIN site inhibition

Author

Eilers, Martin, primary

Published

2024

14. Combined inhibition of Aurora-A and ATR kinases results in regression of MYCN-amplified neuroblastoma

Author

Roeschert, Isabelle, Poon, Evon, Henssen, Anton G., Dorado Garcia, Heathcliff, Gatti, Marco, Giansanti, Celeste, Jamin, Yann, Ade, Carsten P., Gallant, Peter, Schülein-Völk, Christina, Beli, Petra, Richards, Mark, Rosenfeldt, Mathias, Altmeyer, Matthias, Anderson, John, Eggert, Angelika, Dobbelstein, Matthias, Bayliss, Richard, Chesler, Louis, Büchel, Gabriele, and Eilers, Martin

Published

2021

15. Association with TFIIIC limits MYCN localisation in hubs of active promoters and chromatin accumulation of non-phosphorylated RNA polymerase II.

Author

Vidal, Raphael, Leen, Eoin, Herold, Steffi, Müller, Mareike, Fleischhauer, Daniel, Schülein-Völk, Christina, Papadopoulos, Dimitrios, Röschert, Isabelle, Uhl, Leonie, Ade, Carsten P., Gallant, Peter, Bayliss, Richard, Eilers, Martin, and Büchel, Gabriele

Published

2024

16. Association with TFIIIC limits MYCN localization in hubs of active promoters and chromatin accumulation of non-phosphorylated RNA Polymerase II

Author

Vidal, Raphael, primary, Leen, Eoin, additional, Herold, Steffi, additional, Müller, Mareike, additional, Fleischhauer, Daniel, additional, Schülein-Völk, Christina, additional, Papadopoulos, Dimitrios, additional, Röschert, Isabelle, additional, Uhl, Leonie, additional, Ade, Carsten P., additional, Gallant, Peter, additional, Bayliss, Richard, additional, Eilers, Martin, additional, and Büchel, Gabriele, additional

Published

2024

17. NEAT1 promotes genome stability via m6A methylation-dependent regulation of CHD4

Author

Mamontova, Victoria, primary, Trifault, Barbara, additional, Gribling-Burrer, Anne-Sophie, additional, Bohn, Patrick, additional, Preckwinkel, Pit, additional, Schmitz, Werner, additional, Gallant, Peter, additional, Papadopoulos, Dimitrios, additional, Eilers, Martin, additional, Gutschner, Tony, additional, Smyth, Redmond P, additional, and Burger, Kaspar, additional

Published

2024

18. USP10 drives cancer stemness and enables super-competitor signalling in Colorectal Cancer

Author

Diefenbacher, Markus, primary, Reissland, Michaela, additional, Hartmann, Oliver, additional, Tauch, Saskia, additional, Bugter, Jeroen, additional, Prieto-Garcia, Cristian, additional, Schulte, Clemens, additional, Loebbert, Sinah, additional, Solvie, Daniel, additional, Bitman-Lotan, Eliya, additional, Narain, Ashwin, additional, Jacomin, Anne-Claire, additional, Schuelein-Voelk, Christina, additional, Fuss, Carmina, additional, Pahor, Nikolett, additional, Ade, Carsten, additional, Buck, Victoria, additional, Potente, Michael, additional, Li, Vivian, additional, Beliu, Gerti, additional, Wiegering, Armin, additional, Grossmann, Tom, additional, Eilers, Martin, additional, Wolf, Elmar, additional, Maric, Hans, additional, Rosenfeldt, Mathias, additional, Maurice, Madelon, additional, Dikic, Ivan, additional, Gallant, Peter, additional, and Oryan, Amir, additional

Published

2023

19. Reprogramming of host glutamine metabolism during Chlamydia trachomatis infection and its key role in peptidoglycan synthesis

Author

Rajeeve, Karthika, Vollmuth, Nadine, Janaki-Raman, Sudha, Wulff, Thomas F., Baluapuri, Apoorva, Dejure, Francesca R., Huber, Claudia, Fink, Julian, Schmalhofer, Maximilian, Schmitz, Werner, Sivadasan, Rajeeve, Eilers, Martin, Wolf, Elmar, Eisenreich, Wolfgang, Schulze, Almut, Seibel, Jürgen, and Rudel, Thomas

Published

2020

20. Target gene-independent functions of MYC oncoproteins

Author

Baluapuri, Apoorva, Wolf, Elmar, and Eilers, Martin

Published

2020

21. Drugging MYCN through an Allosteric Transition in Aurora Kinase A

Author

Gustafson, William Clay, Meyerowitz, Justin Gabriel, Nekritz, Erin A, Chen, Justin, Benes, Cyril, Charron, Elise, Simonds, Erin F, Seeger, Robert, Matthay, Katherine K, Hertz, Nicholas T, Eilers, Martin, Shokat, Kevan M, and Weiss, William A

Subjects

Genetics, Cancer, Allosteric Regulation, Animals, Antineoplastic Agents, Area Under Curve, Aurora Kinase A, Catalytic Domain, Cell Line, Tumor, Cell Survival, Crystallography, X-Ray, Humans, Mice, Mice, Inbred NOD, Mice, Nude, Mice, SCID, Models, Molecular, N-Myc Proto-Oncogene Protein, Neuroblastoma, Nuclear Proteins, Oncogene Proteins, Phenylurea Compounds, Phosphorylation, Protein Processing, Post-Translational, Protein Structure, Secondary, Proteolysis, Pyrimidines, S Phase Cell Cycle Checkpoints, Structure-Activity Relationship, Tumor Burden, Xenograft Model Antitumor Assays, Neurosciences, Oncology and Carcinogenesis, Oncology & Carcinogenesis

Abstract

MYC proteins are major drivers of cancer yet are considered undruggable because their DNA binding domains are composed of two extended alpha helices with no apparent surfaces for small-molecule binding. Proteolytic degradation of MYCN protein is regulated in part by a kinase-independent function of Aurora A. We describe a class of inhibitors that disrupts the native conformation of Aurora A and drives the degradation of MYCN protein across MYCN-driven cancers. Comparison of cocrystal structures with structure-activity relationships across multiple inhibitors and chemotypes, coupled with mechanistic studies and biochemical assays, delineates an Aurora A conformation-specific effect on proteolytic degradation of MYCN, rather than simple nanomolar-level inhibition of Aurora A kinase activity.

Published

2014

22. Regulation of BCR-mediated Ca2+ mobilization by MIZ1-TMBIM4 safeguards IgG1+ GC B cell–positive selection.

Author

Zhang, Lingling, Toboso-Navasa, Amparo, Gunawan, Arief, Camara, Abdouramane, Nakagawa, Rinako, Finsterbusch, Katja, Chakravarty, Probir, Newman, Rebecca, Zhang, Yang, Eilers, Martin, Wack, Andreas, Tolar, Pavel, Toellner, Kai-Michael, and Calado, Dinis Pedro

Subjects

B cell receptors, HUMORAL immunity, B cells, IMMUNOGLOBULIN M, ANTIBODY formation

Abstract

The transition from immunoglobulin M (IgM) to affinity-matured IgG antibodies is vital for effective humoral immunity. This is facilitated by germinal centers (GCs) through affinity maturation and preferential maintenance of IgG+ B cells over IgM+ B cells. However, it is not known whether the positive selection of the different Ig isotypes within GCs is dependent on specific transcriptional mechanisms. Here, we explored IgG1+ GC B cell transcription factor dependency using a CRISPR-Cas9 screen and conditional mouse genetics. We found that MIZ1 was specifically required for IgG1+ GC B cell survival during positive selection, whereas IgM+ GC B cells were largely independent. Mechanistically, MIZ1 induced TMBIM4, an ancestral anti-apoptotic protein that regulated inositol trisphosphate receptor (IP3R)–mediated calcium (Ca2+) mobilization downstream of B cell receptor (BCR) signaling in IgG1+ B cells. The MIZ1-TMBIM4 axis prevented mitochondrial dysfunction–induced IgG1+ GC cell death caused by excessive Ca2+ accumulation. This study uncovers a unique Ig isotype–specific dependency on a hitherto unidentified mechanism in GC-positive selection. Editor's summary: Positive selection of high-affinity immunoglobulin G (IgG)+ B cells within germinal centers (GCs) promotes potent humoral immune responses, yet how the positive selection of IgG1+ GC B cells is regulated is not well defined. By studying mice with a GC B cell–specific deletion of the transcription factor MIZ1, Zhang et al. identified that MIZ1 was required for affinity maturation of IgG1+ GC B cells and high-affinity antibody production. MIZ1 promoted expression of the gene encoding the anti-apoptotic protein TMBIM4, which limited calcium mobilization downstream of BCR activation, and prevented mitochondrial dysfunction and cell death. These findings demonstrate that MIZ1 expression ensures the survival of IgG1+ GC B cells during positive selection. —Hannah Isles [ABSTRACT FROM AUTHOR]

Published

2024

23. eLife assessment: Ribosome subunit attrition and activation of the p53–MDM4 axis dominate the response of MLL-rearranged cancer cells to WDR5 WIN site inhibition

Author

Eilers, Martin, primary

Published

2023

24. A MYC–GCN2–eIF2α negative feedback loop limits protein synthesis to prevent MYC-dependent apoptosis in colorectal cancer

Author

Schmidt, Stefanie, Gay, David, Uthe, Friedrich Wilhelm, Denk, Sarah, Paauwe, Madelon, Matthes, Niels, Diefenbacher, Markus Elmar, Bryson, Sheila, Warrander, Fiona Clare, Erhard, Florian, Ade, Carsten Patrick, Baluapuri, Apoorva, Walz, Susanne, Jackstadt, Rene, Ford, Catriona, Vlachogiannis, Georgios, Valeri, Nicola, Otto, Christoph, Schülein-Völk, Christina, Maurus, Katja, Schmitz, Werner, Knight, John Raymond Philip, Wolf, Elmar, Strathdee, Douglas, Schulze, Almut, Germer, Christoph-Thomas, Rosenwald, Andreas, Sansom, Owen James, Eilers, Martin, and Wiegering, Armin

Published

2019

25. Recruitment of BRCA1 limits MYCN-driven accumulation of stalled RNA polymerase

Author

Herold, Steffi, Kalb, Jacqueline, Büchel, Gabriele, Ade, Carsten P., Baluapuri, Apoorva, Xu, Jiajia, Koster, Jan, Solvie, Daniel, Carstensen, Anne, Klotz, Christina, Rodewald, Sabrina, Schülein-Völk, Christina, Dobbelstein, Matthias, Wolf, Elmar, Molenaar, Jan, Versteeg, Rogier, Walz, Susanne, and Eilers, Martin

Published

2019

26. Myc Regulates Keratinocyte Adhesion and Differentiation via Complex Formation with Miz1

Author

Frye, Michaela, Benitah, Salvador Aznar, Watt, Fiona M., and Eilers, Martin

Published

2006

27. Direct RNA-binding by MYCN mediates feedback from RNA processing to transcription control

Author

Papadopoulos, Dimitrios, primary, Ha, Stefanie Anh, additional, Fleischhauer, Daniel, additional, Uhl, Leonie, additional, Schneider, Katharina, additional, Mikicic, Ivan, additional, Russell, Timothy J., additional, Brem, Annika, additional, Valanju, Omkar Rajendra, additional, Gallant, Peter, additional, Schuelein-Voelk, Christina, additional, Maric, Hans Michael, additional, Beli, Petra, additional, Buechel, Gabriele, additional, Vos, Seychelle M., additional, and Eilers, Martin, additional

Published

2023

28. Regulation of BCR-mediated Ca2+ mobilization by MIZ1-TIMBIM4 safeguards IgG1+ GC B cell positive selection

Author

Zhang, Lingling, primary, Toboso-Navasa, Amparo, additional, Gunawan, Arief, additional, Camara, Abdouramane, additional, Nakagawa, Rinako, additional, Finsterbusch, Katja, additional, Chakravarty, Probir, additional, Newman, Rebecca, additional, Zhang, Yang, additional, Eilers, Martin, additional, Wack, Andreas, additional, Tolar, Pavel, additional, Toellner, Kai-Michael, additional, and Calado, Dinis Pedro, additional

Published

2023

29. Maintaining protein stability of ∆Np63 via USP28 is required by squamous cancer cells

Author

Prieto‐Garcia, Cristian, Hartmann, Oliver, Reissland, Michaela, Braun, Fabian, Fischer, Thomas, Walz, Susanne, Schülein‐Völk, Christina, Eilers, Ursula, Ade, Carsten P, Calzado, Marco A, Orian, Amir, Maric, Hans M, Münch, Christian, Rosenfeldt, Mathias, Eilers, Martin, and Diefenbacher, Markus E

Published

2020

30. Stabilisation of β-Catenin-WNT signalling by USP10 in APC-truncated colorectal cancer drives cancer stemness and enables super-competitor signalling

Author

Reissland, Michaela, primary, Hartmann, Oliver, additional, Tauch, Saskia, additional, Prieto-Garcia, Cristian, additional, Schulte, Clemens, additional, Solvie, Daniel, additional, Loebbert, Sinah, additional, Jacomin, Anne-Claire, additional, Pesic, Marina, additional, Bugter, Jeroen, additional, Schülein-Völk, Christina, additional, Fuss, Carmina, additional, Pahor, Nikolett, additional, Ade, Carsten, additional, Buck, Viktoria, additional, Potente, Michael, additional, Li, Vivian, additional, Beliu, Gerti, additional, Wiegering, Armin, additional, Bitman-Lotan, Eliya, additional, Grossmann, Tom, additional, Rosenfeldt, Mathias, additional, Eilers, Martin, additional, Maric, Hans, additional, Maurice, Madelon, additional, Greten, Florian, additional, Dikic, Ivan, additional, Oryan, Amir, additional, Gallant, Peter, additional, and Diefenbacher, Markus, additional

Published

2023

31. Supplementary Figure 3 from Inflammation-Induced NFATc1–STAT3 Transcription Complex Promotes Pancreatic Cancer Initiation by KrasG12D

Author

Baumgart, Sandra, primary, Chen, Nai-Ming, primary, Siveke, Jens T., primary, König, Alexander, primary, Zhang, Jin-San, primary, Singh, Shiv K., primary, Wolf, Elmar, primary, Bartkuhn, Marek, primary, Esposito, Irene, primary, Heßmann, Elisabeth, primary, Reinecke, Johanna, primary, Nikorowitsch, Julius, primary, Brunner, Marius, primary, Singh, Garima, primary, Fernandez-Zapico, Martin E., primary, Smyrk, Thomas, primary, Bamlet, William R., primary, Eilers, Martin, primary, Neesse, Albrecht, primary, Gress, Thomas M., primary, Billadeau, Daniel D., primary, Tuveson, David, primary, Urrutia, Raul, primary, and Ellenrieder, Volker, primary

Published

2023

32. Data from Targeting Translation Initiation Bypasses Signaling Crosstalk Mechanisms That Maintain High MYC Levels in Colorectal Cancer

Author

Wiegering, Armin, primary, Uthe, Friedrich W., primary, Jamieson, Thomas, primary, Ruoss, Yvonne, primary, Hüttenrauch, Melanie, primary, Küspert, Maritta, primary, Pfann, Christina, primary, Nixon, Colin, primary, Herold, Steffi, primary, Walz, Susanne, primary, Taranets, Lyudmyla, primary, Germer, Christoph-Thomas, primary, Rosenwald, Andreas, primary, Sansom, Owen J., primary, and Eilers, Martin, primary

Published

2023

33. Supplementary Figure 1 from Inflammation-Induced NFATc1–STAT3 Transcription Complex Promotes Pancreatic Cancer Initiation by KrasG12D

Author

Baumgart, Sandra, primary, Chen, Nai-Ming, primary, Siveke, Jens T., primary, König, Alexander, primary, Zhang, Jin-San, primary, Singh, Shiv K., primary, Wolf, Elmar, primary, Bartkuhn, Marek, primary, Esposito, Irene, primary, Heßmann, Elisabeth, primary, Reinecke, Johanna, primary, Nikorowitsch, Julius, primary, Brunner, Marius, primary, Singh, Garima, primary, Fernandez-Zapico, Martin E., primary, Smyrk, Thomas, primary, Bamlet, William R., primary, Eilers, Martin, primary, Neesse, Albrecht, primary, Gress, Thomas M., primary, Billadeau, Daniel D., primary, Tuveson, David, primary, Urrutia, Raul, primary, and Ellenrieder, Volker, primary

Published

2023

34. Supplementary Figure 5 from Inflammation-Induced NFATc1–STAT3 Transcription Complex Promotes Pancreatic Cancer Initiation by KrasG12D

Author

Baumgart, Sandra, primary, Chen, Nai-Ming, primary, Siveke, Jens T., primary, König, Alexander, primary, Zhang, Jin-San, primary, Singh, Shiv K., primary, Wolf, Elmar, primary, Bartkuhn, Marek, primary, Esposito, Irene, primary, Heßmann, Elisabeth, primary, Reinecke, Johanna, primary, Nikorowitsch, Julius, primary, Brunner, Marius, primary, Singh, Garima, primary, Fernandez-Zapico, Martin E., primary, Smyrk, Thomas, primary, Bamlet, William R., primary, Eilers, Martin, primary, Neesse, Albrecht, primary, Gress, Thomas M., primary, Billadeau, Daniel D., primary, Tuveson, David, primary, Urrutia, Raul, primary, and Ellenrieder, Volker, primary

Published

2023

35. Data from Inflammation-Induced NFATc1–STAT3 Transcription Complex Promotes Pancreatic Cancer Initiation by KrasG12D

Author

Baumgart, Sandra, primary, Chen, Nai-Ming, primary, Siveke, Jens T., primary, König, Alexander, primary, Zhang, Jin-San, primary, Singh, Shiv K., primary, Wolf, Elmar, primary, Bartkuhn, Marek, primary, Esposito, Irene, primary, Heßmann, Elisabeth, primary, Reinecke, Johanna, primary, Nikorowitsch, Julius, primary, Brunner, Marius, primary, Singh, Garima, primary, Fernandez-Zapico, Martin E., primary, Smyrk, Thomas, primary, Bamlet, William R., primary, Eilers, Martin, primary, Neesse, Albrecht, primary, Gress, Thomas M., primary, Billadeau, Daniel D., primary, Tuveson, David, primary, Urrutia, Raul, primary, and Ellenrieder, Volker, primary

Published

2023

36. Supplementary Figure 4 from Inflammation-Induced NFATc1–STAT3 Transcription Complex Promotes Pancreatic Cancer Initiation by KrasG12D

Author

Baumgart, Sandra, primary, Chen, Nai-Ming, primary, Siveke, Jens T., primary, König, Alexander, primary, Zhang, Jin-San, primary, Singh, Shiv K., primary, Wolf, Elmar, primary, Bartkuhn, Marek, primary, Esposito, Irene, primary, Heßmann, Elisabeth, primary, Reinecke, Johanna, primary, Nikorowitsch, Julius, primary, Brunner, Marius, primary, Singh, Garima, primary, Fernandez-Zapico, Martin E., primary, Smyrk, Thomas, primary, Bamlet, William R., primary, Eilers, Martin, primary, Neesse, Albrecht, primary, Gress, Thomas M., primary, Billadeau, Daniel D., primary, Tuveson, David, primary, Urrutia, Raul, primary, and Ellenrieder, Volker, primary

Published

2023

37. Supplementary Information from Inflammation-Induced NFATc1–STAT3 Transcription Complex Promotes Pancreatic Cancer Initiation by KrasG12D

Author

Baumgart, Sandra, primary, Chen, Nai-Ming, primary, Siveke, Jens T., primary, König, Alexander, primary, Zhang, Jin-San, primary, Singh, Shiv K., primary, Wolf, Elmar, primary, Bartkuhn, Marek, primary, Esposito, Irene, primary, Heßmann, Elisabeth, primary, Reinecke, Johanna, primary, Nikorowitsch, Julius, primary, Brunner, Marius, primary, Singh, Garima, primary, Fernandez-Zapico, Martin E., primary, Smyrk, Thomas, primary, Bamlet, William R., primary, Eilers, Martin, primary, Neesse, Albrecht, primary, Gress, Thomas M., primary, Billadeau, Daniel D., primary, Tuveson, David, primary, Urrutia, Raul, primary, and Ellenrieder, Volker, primary

Published

2023

38. Supplementary Figure 2 from Inflammation-Induced NFATc1–STAT3 Transcription Complex Promotes Pancreatic Cancer Initiation by KrasG12D

Author

Baumgart, Sandra, primary, Chen, Nai-Ming, primary, Siveke, Jens T., primary, König, Alexander, primary, Zhang, Jin-San, primary, Singh, Shiv K., primary, Wolf, Elmar, primary, Bartkuhn, Marek, primary, Esposito, Irene, primary, Heßmann, Elisabeth, primary, Reinecke, Johanna, primary, Nikorowitsch, Julius, primary, Brunner, Marius, primary, Singh, Garima, primary, Fernandez-Zapico, Martin E., primary, Smyrk, Thomas, primary, Bamlet, William R., primary, Eilers, Martin, primary, Neesse, Albrecht, primary, Gress, Thomas M., primary, Billadeau, Daniel D., primary, Tuveson, David, primary, Urrutia, Raul, primary, and Ellenrieder, Volker, primary

Published

2023

39. Supplementary Figure Legends, Table Legends, Table 1 from Targeting Translation Initiation Bypasses Signaling Crosstalk Mechanisms That Maintain High MYC Levels in Colorectal Cancer

Author

Wiegering, Armin, primary, Uthe, Friedrich W., primary, Jamieson, Thomas, primary, Ruoss, Yvonne, primary, Hüttenrauch, Melanie, primary, Küspert, Maritta, primary, Pfann, Christina, primary, Nixon, Colin, primary, Herold, Steffi, primary, Walz, Susanne, primary, Taranets, Lyudmyla, primary, Germer, Christoph-Thomas, primary, Rosenwald, Andreas, primary, Sansom, Owen J., primary, and Eilers, Martin, primary

Published

2023

40. Supplementary Figure 4 from Targeting Translation Initiation Bypasses Signaling Crosstalk Mechanisms That Maintain High MYC Levels in Colorectal Cancer

Author

Wiegering, Armin, primary, Uthe, Friedrich W., primary, Jamieson, Thomas, primary, Ruoss, Yvonne, primary, Hüttenrauch, Melanie, primary, Küspert, Maritta, primary, Pfann, Christina, primary, Nixon, Colin, primary, Herold, Steffi, primary, Walz, Susanne, primary, Taranets, Lyudmyla, primary, Germer, Christoph-Thomas, primary, Rosenwald, Andreas, primary, Sansom, Owen J., primary, and Eilers, Martin, primary

Published

2023

41. Supplementary Figure 7 from Targeting Translation Initiation Bypasses Signaling Crosstalk Mechanisms That Maintain High MYC Levels in Colorectal Cancer

Author

Wiegering, Armin, primary, Uthe, Friedrich W., primary, Jamieson, Thomas, primary, Ruoss, Yvonne, primary, Hüttenrauch, Melanie, primary, Küspert, Maritta, primary, Pfann, Christina, primary, Nixon, Colin, primary, Herold, Steffi, primary, Walz, Susanne, primary, Taranets, Lyudmyla, primary, Germer, Christoph-Thomas, primary, Rosenwald, Andreas, primary, Sansom, Owen J., primary, and Eilers, Martin, primary

Published

2023

42. Supplementary Figure 3 from Targeting Translation Initiation Bypasses Signaling Crosstalk Mechanisms That Maintain High MYC Levels in Colorectal Cancer

Author

Wiegering, Armin, primary, Uthe, Friedrich W., primary, Jamieson, Thomas, primary, Ruoss, Yvonne, primary, Hüttenrauch, Melanie, primary, Küspert, Maritta, primary, Pfann, Christina, primary, Nixon, Colin, primary, Herold, Steffi, primary, Walz, Susanne, primary, Taranets, Lyudmyla, primary, Germer, Christoph-Thomas, primary, Rosenwald, Andreas, primary, Sansom, Owen J., primary, and Eilers, Martin, primary

Published

2023

43. Supplementary Figure 6 from Targeting Translation Initiation Bypasses Signaling Crosstalk Mechanisms That Maintain High MYC Levels in Colorectal Cancer

Author

Wiegering, Armin, primary, Uthe, Friedrich W., primary, Jamieson, Thomas, primary, Ruoss, Yvonne, primary, Hüttenrauch, Melanie, primary, Küspert, Maritta, primary, Pfann, Christina, primary, Nixon, Colin, primary, Herold, Steffi, primary, Walz, Susanne, primary, Taranets, Lyudmyla, primary, Germer, Christoph-Thomas, primary, Rosenwald, Andreas, primary, Sansom, Owen J., primary, and Eilers, Martin, primary

Published

2023

44. Supplementary Figure 2 from Targeting Translation Initiation Bypasses Signaling Crosstalk Mechanisms That Maintain High MYC Levels in Colorectal Cancer

Author

Wiegering, Armin, primary, Uthe, Friedrich W., primary, Jamieson, Thomas, primary, Ruoss, Yvonne, primary, Hüttenrauch, Melanie, primary, Küspert, Maritta, primary, Pfann, Christina, primary, Nixon, Colin, primary, Herold, Steffi, primary, Walz, Susanne, primary, Taranets, Lyudmyla, primary, Germer, Christoph-Thomas, primary, Rosenwald, Andreas, primary, Sansom, Owen J., primary, and Eilers, Martin, primary

Published

2023

45. Supplementary Figure 6 from Inflammation-Induced NFATc1–STAT3 Transcription Complex Promotes Pancreatic Cancer Initiation by KrasG12D

Author

Baumgart, Sandra, primary, Chen, Nai-Ming, primary, Siveke, Jens T., primary, König, Alexander, primary, Zhang, Jin-San, primary, Singh, Shiv K., primary, Wolf, Elmar, primary, Bartkuhn, Marek, primary, Esposito, Irene, primary, Heßmann, Elisabeth, primary, Reinecke, Johanna, primary, Nikorowitsch, Julius, primary, Brunner, Marius, primary, Singh, Garima, primary, Fernandez-Zapico, Martin E., primary, Smyrk, Thomas, primary, Bamlet, William R., primary, Eilers, Martin, primary, Neesse, Albrecht, primary, Gress, Thomas M., primary, Billadeau, Daniel D., primary, Tuveson, David, primary, Urrutia, Raul, primary, and Ellenrieder, Volker, primary

Published

2023

46. Supplementary Figure 5 from Targeting Translation Initiation Bypasses Signaling Crosstalk Mechanisms That Maintain High MYC Levels in Colorectal Cancer

Author

Wiegering, Armin, primary, Uthe, Friedrich W., primary, Jamieson, Thomas, primary, Ruoss, Yvonne, primary, Hüttenrauch, Melanie, primary, Küspert, Maritta, primary, Pfann, Christina, primary, Nixon, Colin, primary, Herold, Steffi, primary, Walz, Susanne, primary, Taranets, Lyudmyla, primary, Germer, Christoph-Thomas, primary, Rosenwald, Andreas, primary, Sansom, Owen J., primary, and Eilers, Martin, primary

Published

2023

47. Supplementary Figure 1 from Targeting Translation Initiation Bypasses Signaling Crosstalk Mechanisms That Maintain High MYC Levels in Colorectal Cancer

Author

Wiegering, Armin, primary, Uthe, Friedrich W., primary, Jamieson, Thomas, primary, Ruoss, Yvonne, primary, Hüttenrauch, Melanie, primary, Küspert, Maritta, primary, Pfann, Christina, primary, Nixon, Colin, primary, Herold, Steffi, primary, Walz, Susanne, primary, Taranets, Lyudmyla, primary, Germer, Christoph-Thomas, primary, Rosenwald, Andreas, primary, Sansom, Owen J., primary, and Eilers, Martin, primary

Published

2023

48. Supplementary table S3 from UBR5 Is Coamplified with MYC in Breast Tumors and Encodes an Ubiquitin Ligase That Limits MYC-Dependent Apoptosis

Author

Qiao, Xi, primary, Liu, Ying, primary, Prada, Maria Llamazares, primary, Mohan, Aravind K., primary, Gupta, Abhishekh, primary, Jaiswal, Alok, primary, Sharma, Mukund, primary, Merisaari, Joni, primary, Haikala, Heidi M., primary, Talvinen, Kati, primary, Yetukuri, Laxman, primary, Pylvänäinen, Joanna W., primary, Klefström, Juha, primary, Kronqvist, Pauliina, primary, Meinander, Annika, primary, Aittokallio, Tero, primary, Hietakangas, Ville, primary, Eilers, Martin, primary, and Westermarck, Jukka, primary

Published

2023

49. Supplementary materials and methods from UBR5 Is Coamplified with MYC in Breast Tumors and Encodes an Ubiquitin Ligase That Limits MYC-Dependent Apoptosis

Author

Qiao, Xi, primary, Liu, Ying, primary, Prada, Maria Llamazares, primary, Mohan, Aravind K., primary, Gupta, Abhishekh, primary, Jaiswal, Alok, primary, Sharma, Mukund, primary, Merisaari, Joni, primary, Haikala, Heidi M., primary, Talvinen, Kati, primary, Yetukuri, Laxman, primary, Pylvänäinen, Joanna W., primary, Klefström, Juha, primary, Kronqvist, Pauliina, primary, Meinander, Annika, primary, Aittokallio, Tero, primary, Hietakangas, Ville, primary, Eilers, Martin, primary, and Westermarck, Jukka, primary

Published

2023

50. Figure S6 from MYC- and MIZ1-Dependent Vesicular Transport of Double-Strand RNA Controls Immune Evasion in Pancreatic Ductal Adenocarcinoma

Author

Krenz, Bastian, primary, Gebhardt-Wolf, Anneli, primary, Ade, Carsten P., primary, Gaballa, Abdallah, primary, Roehrig, Florian, primary, Vendelova, Emilia, primary, Baluapuri, Apoorva, primary, Eilers, Ursula, primary, Gallant, Peter, primary, D'Artista, Luana, primary, Wiegering, Armin, primary, Gasteiger, Georg, primary, Rosenfeldt, Mathias T., primary, Bauer, Stefan, primary, Zender, Lars, primary, Wolf, Elmar, primary, and Eilers, Martin, primary

Published

2023