Your search keyword '"Schäfer, Heiner"' showing total 360 results

1. The Role of Nrf2 in the Regulation of Mitochondrial Function and Ferroptosis in Pancreatic Cancer

Author

Baiskhanova, Dinara, primary and Schäfer, Heiner, additional

Published

2024

2. NF-κB/RelA controlled A20 limits TRAIL-induced apoptosis in pancreatic cancer

Author

Geismann, Claudia, Hauser, Charlotte, Grohmann, Frauke, Schneeweis, Christian, Bölter, Nico, Gundlach, Jan-Paul, Schneider, Günter, Röcken, Christoph, Meinhardt, Christian, Schäfer, Heiner, Schreiber, Stefan, and Arlt, Alexander

Published

2023

3. TRAIL-receptor 2—a novel negative regulator of p53

Author

Willms, Anna, Schupp, Hella, Poelker, Michelle, Adawy, Alshaimaa, Debus, Jan Frederik, Hartwig, Torsten, Krichel, Tim, Fritsch, Jürgen, Singh, Steven, Walczak, Henning, von Karstedt, Silvia, Schäfer, Heiner, and Trauzold, Anna

Published

2021

4. Monocarboxylate Transporter-1 (MCT1)-Mediated Lactate Uptake Protects Pancreatic Adenocarcinoma Cells from Oxidative Stress during Glutamine Scarcity Thereby Promoting Resistance against Inhibitors of Glutamine Metabolism

Author

Ammar, Nourhane, primary, Hildebrandt, Maya, additional, Geismann, Claudia, additional, Röder, Christian, additional, Gemoll, Timo, additional, Sebens, Susanne, additional, Trauzold, Ania, additional, and Schäfer, Heiner, additional

Published

2023

5. Diabetes as risk factor for pancreatic cancer: Hyperglycemia promotes epithelial-mesenchymal-transition and stem cell properties in pancreatic ductal epithelial cells

Author

Rahn, Sascha, Zimmermann, Vivien, Viol, Fabrice, Knaack, Hendrike, Stemmer, Kerstin, Peters, Lena, Lenk, Lennart, Ungefroren, Hendrik, Saur, Dieter, Schäfer, Heiner, Helm, Ole, and Sebens, Susanne

Published

2018

6. The antioxidant transcription factor Nrf2 modulates the stress response and phenotype of malignant as well as premalignant pancreatic ductal epithelial cells by inducing expression of the ATF3 splicing variant ΔZip2

Author

Kha, My-Lan, Hesse, Lisa, Deisinger, Florian, Sipos, Bence, Röcken, Christoph, Arlt, Alexander, Sebens, Susanne, Helm, Ole, and Schäfer, Heiner

Published

2019

7. Expression and role of the immune checkpoint regulator PD-L1 in the tumor-stroma interplay of pancreatic ductal adenocarcinoma

Author

Daunke, Tina, primary, Beckinger, Silje, additional, Rahn, Sascha, additional, Krüger, Sandra, additional, Heckl, Steffen, additional, Schäfer, Heiner, additional, Wesch, Daniela, additional, Pilarsky, Christian, additional, Eckstein, Markus, additional, Hartmann, Arndt, additional, Röcken, Christoph, additional, Wandmacher, Anna Maxi, additional, and Sebens, Susanne, additional

Published

2023

8. Hepatic myofibroblasts exert immunosuppressive effects independent of the immune checkpoint regulator PD-L1 in liver metastasis of pancreatic ductal adenocarcinoma

Author

Beckinger, Silje, primary, Daunke, Tina, additional, Aldag, Leon, additional, Krüger, Sandra, additional, Heckl, Steffen, additional, Wesch, Daniela, additional, Schäfer, Heiner, additional, Röcken, Christoph, additional, Rahn, Sascha, additional, and Sebens, Susanne, additional

Published

2023

9. Expression and role of the immune checkpoint regulator PD-L1 in the tumor-stroma interplay of pancreatic ductal adenocarcinoma

Author

Daunke, Tina, Beckinger, Silje, Rahn, Sascha, Krüger, Sandra, Heckl, Steffen, Schäfer, Heiner, Wesch, Daniela, Pilarsky, Christian, Eckstein, Markus, Hartmann, Arndt, Röcken, Christoph, Wandmacher, Anna Maxi, and Sebens, Susanne

Subjects

ddc:610

Abstract

Introduction: Immune checkpoint inhibitors (ICI), e.g., targeting programmed cell death protein 1-ligand 1 (PD-L1) or its receptor PD-1, have markedly improved the therapy of many cancers but so far failed in pancreatic ductal adenocarcinoma (PDAC). Macrophages represent one of the most abundant immune cell populations within the tumor microenvironment (TME) of PDAC being able to either support or restrain tumor progression depending on their phenotype. To better understand treatment failure of PD-L1/PD-1 inhibitors in PDAC, this study examined PD-L1 expression in the context of a dynamic TME in PDAC with a particular focus on the impact of macrophages. Methods: Formalin-fixed and paraffin embedded tissue samples of primary PDAC tissues and corresponding liver metastases were used for immunohistochemical analyses. Serial sections were stained with antibodies detecting Pan-Cytokeratin, CD68, CD163, CD8, and PD-L1.To investigate whether the PD-1/PD-L1 axis and macrophages contribute to immune escape of PDAC cells, a stroma enriched 3D spheroid coculture model was established in vitro, using different PDAC cell lines and macrophages subtypes as well as CD8+ T cells. Functional and flow cytometry analyses were conducted to characterize cell populations. Results: Immunohistochemical analyses revealed that PD-L1 is mainly expressed by stroma cells, including macrophages and not PDAC cells in primary PDAC tissues and corresponding liver metastases. Notably, high local abundance of macrophages and strong PD-L1 staining were commonly found at invasion fronts of tumoral lesions between CD8+ T cells and tumor cells. In order to investigate whether PD-L1 expressing macrophages impact the response of PDAC cells to treatment with PD-L1/PD-1 inhibitors, we developed a spheroid model comprising two different PDAC cell lines and different ratios of in vitro differentiated primary M1- or M2-like polarized macrophages. In line with our in situ findings, high PD-L1 expression was observed in macrophages rather than PDAC cells, which was further increased by the presence of PDAC cells. The effector phenotype of co-cultured CD8+ T cells exemplified by expression of activation markers and release of effector molecules was rather enhanced by PDAC macrophage spheroids, particularly with M1-like macrophages compared to mono-culture spheroids. However, this was not associated with enhanced PDAC cell death. ICI treatment with either Durvalumab or Pembrolizumab alone or in combination with Gemcitabine hardly affected the effector phenotype of CD8+ T cells along with PDAC cell death. Thus, despite strong PD-L1 expression in macrophages, ICI treatment did not result in an enhanced activation and cytotoxic phenotype of CD8+ T cells. Conclusion: Overall, our study revealed novel insights into the interplay of PDAC cells and macrophages in the presence of ICI.

Published

2023

10. Supplementary Figure 1 from Up-regulation of L1CAM in Pancreatic Duct Cells Is Transforming Growth Factor β1– and Slug-Dependent: Role in Malignant Transformation of Pancreatic Cancer

Author

Geismann, Claudia, primary, Morscheck, Mascha, primary, Koch, Dorothee, primary, Bergmann, Frank, primary, Ungefroren, Hendrik, primary, Arlt, Alexander, primary, Tsao, Ming-Sound, primary, Bachem, Max G., primary, Altevogt, Peter, primary, Sipos, Bence, primary, Fölsch, Ulrich R., primary, Schäfer, Heiner, primary, and Müerköster, Susanne Sebens, primary

Published

2023

11. Supplementary Figure 4 from Up-regulation of L1CAM in Pancreatic Duct Cells Is Transforming Growth Factor β1– and Slug-Dependent: Role in Malignant Transformation of Pancreatic Cancer

Author

Geismann, Claudia, primary, Morscheck, Mascha, primary, Koch, Dorothee, primary, Bergmann, Frank, primary, Ungefroren, Hendrik, primary, Arlt, Alexander, primary, Tsao, Ming-Sound, primary, Bachem, Max G., primary, Altevogt, Peter, primary, Sipos, Bence, primary, Fölsch, Ulrich R., primary, Schäfer, Heiner, primary, and Müerköster, Susanne Sebens, primary

Published

2023

12. Supplementary Figure 5 from Up-regulation of L1CAM in Pancreatic Duct Cells Is Transforming Growth Factor β1– and Slug-Dependent: Role in Malignant Transformation of Pancreatic Cancer

Author

Geismann, Claudia, primary, Morscheck, Mascha, primary, Koch, Dorothee, primary, Bergmann, Frank, primary, Ungefroren, Hendrik, primary, Arlt, Alexander, primary, Tsao, Ming-Sound, primary, Bachem, Max G., primary, Altevogt, Peter, primary, Sipos, Bence, primary, Fölsch, Ulrich R., primary, Schäfer, Heiner, primary, and Müerköster, Susanne Sebens, primary

Published

2023

13. Supplementary Figure Legends 1-6 from Up-regulation of L1CAM in Pancreatic Duct Cells Is Transforming Growth Factor β1– and Slug-Dependent: Role in Malignant Transformation of Pancreatic Cancer

Author

Geismann, Claudia, primary, Morscheck, Mascha, primary, Koch, Dorothee, primary, Bergmann, Frank, primary, Ungefroren, Hendrik, primary, Arlt, Alexander, primary, Tsao, Ming-Sound, primary, Bachem, Max G., primary, Altevogt, Peter, primary, Sipos, Bence, primary, Fölsch, Ulrich R., primary, Schäfer, Heiner, primary, and Müerköster, Susanne Sebens, primary

Published

2023

14. Supplementary Figure 6 from Up-regulation of L1CAM in Pancreatic Duct Cells Is Transforming Growth Factor β1– and Slug-Dependent: Role in Malignant Transformation of Pancreatic Cancer

Author

Geismann, Claudia, primary, Morscheck, Mascha, primary, Koch, Dorothee, primary, Bergmann, Frank, primary, Ungefroren, Hendrik, primary, Arlt, Alexander, primary, Tsao, Ming-Sound, primary, Bachem, Max G., primary, Altevogt, Peter, primary, Sipos, Bence, primary, Fölsch, Ulrich R., primary, Schäfer, Heiner, primary, and Müerköster, Susanne Sebens, primary

Published

2023

15. Supplementary Figure 3 from Up-regulation of L1CAM in Pancreatic Duct Cells Is Transforming Growth Factor β1– and Slug-Dependent: Role in Malignant Transformation of Pancreatic Cancer

Author

Geismann, Claudia, primary, Morscheck, Mascha, primary, Koch, Dorothee, primary, Bergmann, Frank, primary, Ungefroren, Hendrik, primary, Arlt, Alexander, primary, Tsao, Ming-Sound, primary, Bachem, Max G., primary, Altevogt, Peter, primary, Sipos, Bence, primary, Fölsch, Ulrich R., primary, Schäfer, Heiner, primary, and Müerköster, Susanne Sebens, primary

Published

2023

16. Supplementary Methods and Materials from Up-regulation of L1CAM in Pancreatic Duct Cells Is Transforming Growth Factor β1– and Slug-Dependent: Role in Malignant Transformation of Pancreatic Cancer

Author

Geismann, Claudia, primary, Morscheck, Mascha, primary, Koch, Dorothee, primary, Bergmann, Frank, primary, Ungefroren, Hendrik, primary, Arlt, Alexander, primary, Tsao, Ming-Sound, primary, Bachem, Max G., primary, Altevogt, Peter, primary, Sipos, Bence, primary, Fölsch, Ulrich R., primary, Schäfer, Heiner, primary, and Müerköster, Susanne Sebens, primary

Published

2023

17. Supplementary Figure 2 from Up-regulation of L1CAM in Pancreatic Duct Cells Is Transforming Growth Factor β1– and Slug-Dependent: Role in Malignant Transformation of Pancreatic Cancer

Author

Geismann, Claudia, primary, Morscheck, Mascha, primary, Koch, Dorothee, primary, Bergmann, Frank, primary, Ungefroren, Hendrik, primary, Arlt, Alexander, primary, Tsao, Ming-Sound, primary, Bachem, Max G., primary, Altevogt, Peter, primary, Sipos, Bence, primary, Fölsch, Ulrich R., primary, Schäfer, Heiner, primary, and Müerköster, Susanne Sebens, primary

Published

2023

18. Ausblick : Kriminalitätsprävention: Lokale Aufgabe und grenzüberschreitender Austausch

Author

Schäfer, Heiner, Holthusen, Bernd, Bendit, René, editor, Erler, Wolfgang, editor, Nieborg, Sima, editor, and Schäfer, Heiner, editor

Published

2000

19. Einführung: Prävention von Kinder- und Jugenddelinquenz in Deutschland und in den Niederlanden

Author

Holthusen, Bernd, Schäfer, Heiner, Bendit, René, editor, Erler, Wolfgang, editor, Nieborg, Sima, editor, and Schäfer, Heiner, editor

Published

2000

20. NF-κ B as a Molecular Target in the Therapy of Pancreatic Carcinoma

Author

Sebens, Susanne, Arlt, Alexander, Schäfer, Heiner, Riess, Hanno, Goerke, Andrea, and Oettle, Helmut

Published

2008

21. List of Contributors

Author

Abadie, Jerôme, primary, Ammerpohl, Ole, additional, Arnal, Audrey, additional, Banach, Maureen, additional, Beckmann, Christa, additional, Bernex, Florence, additional, Boddy, Amy M., additional, Brown, Joel S., additional, Brown, Sam P., additional, De Jesús Andino, Francisco, additional, DeGregori, James, additional, Edholm, Eva-Stina, additional, Enriquez-Navas, Pedro M., additional, Ewald, Paul W., additional, Faugère, Dominique, additional, Foo, Jasmine, additional, Garcia, Déborah, additional, Garvey, Colleen M., additional, Gatenby, Robert A., additional, Gidoin, Cindy, additional, Gillies, Robert J., additional, Grunau, Christoph, additional, Harris, Valerie K., additional, Hattermann, Kirsten, additional, Held-Feindt, Janka, additional, Heng, Henry H., additional, Ibrahim-Hashim, Arig, additional, Kareva, Irina, additional, Kokko, Hanna, additional, Labrut, Sophie, additional, Lemberger, Karin, additional, Lindsay, Danika, additional, Lloyd, Mark C., additional, Møller, Anders Pape, additional, Madsen, Thomas, additional, Marusyk, Andriy, additional, McDonald, John F., additional, Mumenthaler, Shannon M., additional, Nedelcu, Aurora M., additional, Nesse, Randolph M., additional, Nunney, Leonard, additional, Read, Andrew F., additional, Rhoo, Kun Hyoe, additional, Röcken, Christoph, additional, Robert, Jacques, additional, Roche, Benjamin, additional, Russell, Shonagh, additional, Schäfer, Heiner, additional, Schem, Christian, additional, Schewe, Denis, additional, Schiffman, Joshua D., additional, Schindler, Susanne, additional, Schulenburg, Hinrich, additional, Sebens, Susanne, additional, Sprouffske, Kathleen, additional, Swain Ewald, Holly A., additional, Synowitz, Michael, additional, Tasiemski, Aurélie, additional, Thomas, Frédéric, additional, Tiwari, Sanjay, additional, Traulsen, Arne, additional, Trauzold, Anna, additional, Ujvari, Beata, additional, Valerius, Thomas, additional, Vincent, Mark, additional, Vittecoq, Marion, additional, Waldetoft, Kristofer Wollein, additional, and Wesch, Daniela, additional

Published

2017

22. Dormancy: An Evolutionary Key Phenomenon in Cancer Development a

Author

Ammerpohl, Ole, primary, Hattermann, Kirsten, additional, Held-Feindt, Janka, additional, Röcken, Christoph, additional, Schäfer, Heiner, additional, Schem, Christian, additional, Schewe, Denis, additional, Schulenburg, Hinrich, additional, Sebens, Susanne, additional, Synowitz, Michael, additional, Tiwari, Sanjay, additional, Traulsen, Arne, additional, Trauzold, Anna, additional, Valerius, Thomas, additional, and Wesch, Daniela, additional

Published

2017

23. Targeting apoptosis pathways in pancreatic cancer

Author

Arlt, Alexander, Müerköster, Susanne Sebens, and Schäfer, Heiner

Published

2013

24. Combined treatment of L1CAM antibodies and cytostatic drugs improve the therapeutic response of pancreatic and ovarian carcinoma

Author

Schäfer, Heiner, Dieckmann, Chantal, Korniienko, Olena, Moldenhauer, Gerhard, Kiefel, Helena, Salnikov, Alexey, Krüger, Achim, Altevogt, Peter, and Sebens, Susanne

Published

2012

25. Process-Oriented Models for Simulation of Growth Dynamics of Tropical Natural and Plantation Forests

Author

Schäfer, Heiner, Krieger, Holger, Bossel, Hartmut, and Goldammer, Johann Georg, editor

Published

1992

26. Programmed Death-Ligand 1 (PD-L1) Expression Is Induced by Insulin in Pancreatic Ductal Adenocarcinoma Cells Pointing to Its Role in Immune Checkpoint Control

Author

Heckl, Steffen M., Mau, Franziska, Senftleben, Anke, Daunke, Tina, Beckinger, Silje, Abdullazade, Samir, Schreiber, Stefan, Röcken, Christoph, Sebens, Susanne, and Schäfer, Heiner

Subjects

endocrine system diseases, T-cells, Article, B7-H1 Antigen, Pancreatic Neoplasms, diabetes mellitus, hyperinsulinemia, Humans, Insulin, Medicine, RNA, Small Interfering, carcinogenesis, signal transduction, Carcinoma, Pancreatic Ductal

Abstract

Simple Summary Type-2 Diabetes is an established risk factor of pancreatic cancer, yet the exact modalities as well as the contribution of hyperinsulinemia are not fully understood. In our study, we explored a possible link between insulin and the immune evasion of pancreatic cancer cells. We could demonstrate that insulin is able to induce expression of Programmed Death-Ligand 1 (PD-L1) representing a key molecule in immune checkpoint control. This effect of insulin greatly depends on insulin receptor-A and/or IGF-receptor-induced ERK signaling and is enhanced via a crosstalk with EGF. Through insulin-induced PD-L1 expression, pancreatic cancer cells suppress proliferation of CD8+ T-cells underscoring the potential of insulin to confer immune evasion through this immune checkpoint regulator. Furthermore, some cases out of a cohort of pancreatic cancer patients reveal coexpression of PD-L1 and the cytoplasmic insulin receptor in the tumor tissue as shown by immunohistochemistry. Abstract Type-2 diabetes (T2DM) is a risk factor for the development of pancreatic ductal adenocarcinoma (PDAC) and is characterized by insulin resistance and hyperinsulinemia. Besides the well-known growth-promoting activity of insulin or the other members of the Insulin/Insulin-like Growth factor (IGF) axis, we here describe an inducing effect of insulin on PD-L1 expression in PDAC cells. Treatment of the PDAC cell lines BxPc3, A818-6, and T3M4 with insulin increased PD-L1 expression in a time- and dose dependent fashion, as shown by Western blot and qPCR analysis. siRNA mediated knock-down showed that the effects of insulin on PD-L1 depend on the insulin and IGF receptors (InsR and IGFR, respectively). In addition, a crosstalk of insulin-induced ERK activation and Epidermal Growth Factor (EGF) triggered PD-L1 expression. This involves different mechanisms in the three cell lines including upregulation of InsR-A expression in A818-6 and modulation of the adaptor protein Gab1 in BxPc3 cells. As a consequence of the insulin-induced PD-L1 expression, PDAC cells suppress the proliferation of activated human CD8+ T-cells in coculture experiments. The suppression of CD8+ cell proliferation by insulin-pretreated PDAC cells was reversed by PD-1 blockade with Pembrolizumab or by PD-L1 siRNA. Furthermore, the clinical relevance of these observations was supported by detecting a coexpression of cytoplasmic InsR (characteristic for its activation) and PD-L1 in tumor tissues from PDAC patients. Our findings provide a novel insight into the protumorigenic role of insulin in PDAC. Recognizing the impact of insulin on PD-L1 expression as part of the immune privilege, strategies to interfere with this mechanism could pave the way towards a more efficient immunotherapy of PDAC.

Published

2021

27. Insulin Receptor in Pancreatic Cancer—Crown Witness in Cross Examination

Author

Heckl, Steffen M., primary, Kercher, Lukas, additional, Abdullazade, Samir, additional, Schneider, Carolin, additional, Krüger, Sandra, additional, Behrens, Hans-Michael, additional, Sebens, Susanne, additional, Schäfer, Heiner, additional, Schreiber, Stefan, additional, and Röcken, Christoph, additional

Published

2021

28. Delinquenz als Anlaß zur Hilfe?

Author

Gabriel, Gabriele, Holthusen, Bernd, and Schäfer, Heiner

Published

2000

29. Initiation of Pancreatic Cancer: The Interplay of Hyperglycemia and Macrophages Promotes the Acquisition of Malignancy-Associated Properties in Pancreatic Ductal Epithelial Cells

Author

Otto, Lilli, primary, Rahn, Sascha, additional, Daunke, Tina, additional, Walter, Frederik, additional, Winter, Elsa, additional, Möller, Julia Luisa, additional, Rose-John, Stefan, additional, Wesch, Daniela, additional, Schäfer, Heiner, additional, and Sebens, Susanne, additional

Published

2021

30. Tumor-associated macrophages exhibit pro- and anti-inflammatory properties by which they impact on pancreatic tumorigenesis

Author

Helm, Ole, Held-Feindt, Janka, Grage-Griebenow, Evelin, Reiling, Norbert, Ungefroren, Hendrik, Vogel, Ilka, Krüger, Uwe, Becker, Thomas, Ebsen, Michael, Röcken, Christoph, Kabelitz, Dieter, Schäfer, Heiner, and Sebens, Susanne

Published

2014

31. L1CAM promotes enrichment of immunosuppressive T cells in human pancreatic cancer correlating with malignant progression

Author

Grage-Griebenow, Evelin, Jerg, Elfi, Gorys, Artur, Wicklein, Daniel, Wesch, Daniela, Freitag-Wolf, Sandra, Goebel, Lisa, Vogel, Ilka, Becker, Thomas, Ebsen, Michael, Röcken, Christoph, Altevogt, Peter, Schumacher, Udo, Schäfer, Heiner, and Sebens, Susanne

Published

2014

32. Autokrine IL-1β-Sekretion führt zu erhöhter NF-κB-Aktivität und zu Chemoresistenz in Pankreaskarzinomzellen in vivo

Author

Müerköster, Susanne, Arlt, Alexander, Gehrz, André, Vorndamm, Jens, Witt, Maike, Grohmann, Frauke, Fölsch, Ulrich R., and Schäfer, Heiner

Published

2004

33. Role of NF-κB and Akt/PI3K in the resistance of pancreatic carcinoma cell lines against gemcitabine-induced cell death

Author

Arlt, Alexander, Gehrz, Andre, Müerköster, Susanne, Vorndamm, Jens, Kruse, Marie-Luise, Fölsch, Ulrich R, and Schäfer, Heiner

Published

2003

34. The early response gene IEX-1 attenuates NF-κB activation in 293 cells, a possible counter-regulatory process leading to enhanced cell death

Author

Arlt, Alexander, Kruse, Marie-Luise, Breitenbroich, Maike, Gehrz, Andre, Koc, Bülent, Minkenberg, Jörg, Fölsch, Ulrich R, and Schäfer, Heiner

Published

2003

35. CD95 and TRAIL receptor-mediated activation of protein kinase C and NF-κB contributes to apoptosis resistance in ductal pancreatic adenocarcinoma cells

Author

Trauzold, Anna, Wermann, Hendrik, Arlt, Alexander, Schütze, Stefan, Schäfer, Heiner, Oestern, Stefanie, Röder, Christian, Ungefroren, Hendrik, Lampe, Esther, Heinrich, Michael, Walczak, Henning, and Kalthoff, Holger

Published

2001

36. Inhibition of NF-κB sensitizes human pancreatic carcinoma cells to apoptosis induced by etoposide (VP16) or doxorubicin

Author

Arlt, Alexander, Vorndamm, Jens, Breitenbroich, Maike, Fölsch, Ulrich R, Kalthoff, Holger, Schmidt, Wolfgang E, and Schäfer, Heiner

Published

2001

37. Expression of the NF-κB target gene IEX-1 (p22/PRG1) does not prevent cell death but instead triggers apoptosis in Hela cells

Author

Arlt, Alexander, Grobe, Olaf, Sieke, Alexander, Kruse, Marie-Luise, Fölsch, Ulrich R, Schmidt, Wolfgang E, and Schäfer, Heiner

Published

2001

38. EMT-associated up-regulation of L1CAM provides insights into L1CAM-mediated integrin signalling and NF-κB activation

Author

Kiefel, Helena, Bondong, Sandra, Pfeifer, Marco, Schirmer, Uwe, Erbe-Hoffmann, Natalie, Schäfer, Heiner, Sebens, Susanne, and Altevogt, Peter

Published

2012

39. Myofibroblast-induced tumorigenicity of pancreatic ductal epithelial cells is L1CAM dependent

Author

Schäfer, Heiner, Geismann, Claudia, Heneweer, Carola, Egberts, Jan-Hendrik, Korniienko, Olena, Kiefel, Helena, Moldenhauer, Gerhard, Bachem, Max G., Kalthoff, Holger, Altevogt, Peter, and Sebens, Susanne

Published

2012

40. Recent insights into the role of L1CAM in cancer initiation and progression

Author

Altevogt, Peter, primary, Ben‐Ze'ev, Avri, additional, Gavert, Nancy, additional, Schumacher, Udo, additional, Schäfer, Heiner, additional, and Sebens, Susanne, additional

Published

2020

41. Impact of the Monocarboxylate Transporter-1 (MCT1)-Mediated Cellular Import of Lactate on Stemness Properties of Human Pancreatic Adenocarcinoma Cells

Author

Sandforth, Leontine, primary, Ammar, Nourhane, additional, Dinges, Lisa Antonia, additional, Röcken, Christoph, additional, Arlt, Alexander, additional, Sebens, Susanne, additional, and Schäfer, Heiner, additional

Published

2020

42. Inflammation Associated Pancreatic Tumorigenesis: Upregulation of Succinate Dehydrogenase (Subunit B) Reduces Cell Growth of Pancreatic Ductal Epithelial Cells

Author

Rahn, Sascha, primary, Dänzer Barbosa, Philippe, additional, Möller, Julia Luisa, additional, Ammar, Nourhane, additional, Demetrowitsch, Tobias, additional, Helm, Ole, additional, Wesch, Daniela, additional, Sipos, Bence, additional, Röcken, Christoph, additional, Schwarz, Karin, additional, Schäfer, Heiner, additional, and Sebens, Susanne, additional

Published

2019

43. The proliferation-associated early response gene p22/PRG1 is a novel p53 target gene

Author

Schäfer, Heiner, Trauzold, Anna, Sebens, Thorsten, Deppert, Wolfgang, Fölsch, Ulrich R, and Schmidt, Wolfgang E

Published

1998

44. Role of myofibroblasts in innate chemoresistance of pancreatic carcinoma—Epigenetic downregulation of caspases

Author

Müerköster, Susanne Sebens, Werbing, Veronika, Koch, Dorothee, Sipos, Bence, Ammerpohl, Ole, Kalthoff, Holger, Tsao, Ming-Sound, Fölsch, Ulrich R., and Schäfer, Heiner

Published

2008

45. The RGD integrin binding site in human L1-CAM is important for nuclear signaling

Author

Gast, Daniela, Riedle, Svenja, Kiefel, Helena, Müerköster, Susanne Sebens, Schäfer, Heiner, Schäfer, Michael K.E., and Altevogt, Peter

Published

2008

46. Ausblick

Author

Schäfer, Heiner, primary and Holthusen, Bernd, additional

Published

2000

47. Abgedrängt — Der Einfluß des Übergangssystems auf die Marginalisierungsprozesse junger Männer am Arbeitsmarkt

Author

Schäfer, Heiner, primary

Published

1997

48. p22/PRG1: A Novel Early Response Gene in Pancreatic Cancer Cells Regulated by p53 and NFκB

Author

SCHMIDT, WOLFGANG E., ARLT, ALEXANDER, TRAUZOLD, ANIA, and SCHÄFER, HEINER

Published

1999

49. Killer on the road?—cells from pancreatic preneoplastic lesions disseminate through pancreatic ducts on their way to cancer

Author

Schäfer, Heiner, primary, Traulsen, Arne, additional, and Sebens, Susanne, additional

Published

2019

50. Metastasis of pancreatic cancer: An uninflamed liver micromilieu controls cell growth and cancer stem cell properties by oxidative phosphorylation in pancreatic ductal epithelial cells

Author

Fabian, Alexander, primary, Stegner, Simon, additional, Miarka, Lauritz, additional, Zimmermann, Johannes, additional, Lenk, Lennart, additional, Rahn, Sascha, additional, Buttlar, Jann, additional, Viol, Fabrice, additional, Knaack, Hendrike, additional, Esser, Daniela, additional, Schäuble, Sascha, additional, Großmann, Peter, additional, Marinos, Georgios, additional, Häsler, Robert, additional, Mikulits, Wolfgang, additional, Saur, Dieter, additional, Kaleta, Christoph, additional, Schäfer, Heiner, additional, and Sebens, Susanne, additional

Published

2019