Your search keyword '"Lechel A"' showing total 823 results

1. Author Correction: The cellular level of telomere dysfunction determines induction of senescence or apoptosis in vivo

Author

Lechel, André, Ande, Satyanarayana, Ju, Zhenyu, Plentz, Ruben R, Schaetzlein, Sonja, Rudolph, Cornelia, Wilkens, Ludwig, Wiemann, Stefanie U, Saretzki, Gabriele, Malek, Nisar P, Manns, Michael P, Buer, Jan, and Rudolph, K Lenhard

Published

2024

2. Identification and structural elucidation of an oxidation product generated during stability studies of Cabergoline drug product

Author

Lechel, Tilman, Silva Otero, Ruben, Springer, Andreas, Rutkowski, Anja, Matzkow, Dominik, Zart, Johannes, Hartmann, Tobias, and Hochhuth, Dieter

Published

2024

3. CD8 T cell-mediated depletion of HBV surface-antigen-expressing, bilineal-differentiated liver carcinoma cells generates highly aggressive escape variants

Author

Na Qiu, Akshaya Srikanth, Medhanie Mulaw, Umesh Tharehalli, Shanthiya Selvachandran, Martin Wagner, Thomas Seufferlein, Katja Stifter, André Lechel, and Reinhold Schirmbeck

Subjects

CD8 T cells, ER-stress, HBV surface antigen, immune escape variants, liver carcinoma, tg mice, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

ABSTRACTThe expression of viral antigens in chronic hepatitis B virus (HBV) infection drives continuous liver inflammation, one of the main risk factors to develop liver cancer. HBV developed immune-suppressive functions to escape from the host immune system, but their link to liver tumor development is not well understood. Here, we analyzed if and how HBV surface antigen (HBs) expression in combined hepatocellular-cholangiocarcinoma (cHCC/iCCA) cells influences their antigenicity for CD8 T cells. We randomly isolated liver tumor tissues from AlfpCre+-Trp53fl/fl/Alb-HBs+ tg mice and established primary carcinoma cell lines (pCCL) that showed a bilineal (CK7+/HNF4α+) cHCC/iCCA phenotype. These pCCL uniformly expressed HBs (HBshi), and low levels of MHC-I (MHC-Ilo), and were transiently convertible to a high antigenicity (MHC-Ihi) phenotype by IFN-γ treatment. HBshi/pCCL induced HBs/(Kb/S190–197)-specific CD8 T cells and developed slow-growing tumors in subcutaneously transplanted C57Bl/6J (B6) mice. Interestingly, pCCL-ex cells, established from HBshi/pCCL-induced and re-explanted tumors in B6 but not those in immune-deficient Rag1−/− mice showed major alterations, like an MHC-Ihi phenotype, a prominent growth-biased gene expression signature, a significantly decreased HBs expression (HBslo) and a switch to fast-growing tumors in re-transplanted B6 or PD-1−/− hosts with an unlocked PD-1/PD-L1 control system. CD8 T cell-mediated elimination of HBshi/pCCL, together with the attenuation of the negative restraints of HBs in the tumor cells, like ER-stress, reveals a novel mechanism to unleash highly aggressive HBslo/pCCL-ex immune-escape variants. Under certain conditions, HBs-specific CD8 T-cell responses thus potentiate tumor growth, an aspect that should be considered for therapeutic vaccination strategies against chronic HBV infection and liver tumors.

Published

2023

4. A Decade of Rethinking Creativity, Technology and Learning: Reflections with the Deep-Play Research Group

Author

Keenan-Lechel, Sarah F., Warr, Melissa, Richardson, Carmen, Mishra, Punya, Mehta, Rohit, Henriksen, Danah, and Gruber, Natalie

Published

2023

5. Loss of SUV420H2-Dependent Chromatin Compaction Drives Right-Sided Colon Cancer Progression

Author

Boonsanay, Verawan, Mosa, Mohammed H., Looso, Mario, Weichenhan, Dieter, Ceteci, Fatih, Pudelko, Lorenz, Lechel, Andre, Michel, Christian S., Künne, Carsten, Farin, Henner F., Plass, Christoph, and Greten, Florian R.

Published

2023

6. In vitro measurements of radiation exposure with different modalities (computed tomography, cone beam computed tomography) for imaging the petrous bone with a pediatric anthropomorphic phantom

Author

Steiniger, Beatrice, Lechel, Ursula, Reichenbach, Jürgen R., Fiebich, Martin, Aschenbach, Rene, Schegerer, Alexander, Waginger, Matthias, Bobeva, Anelyia, Teichgräber, Ulf, and Mentzel, Hans-Joachim

Published

2022

7. Molecular features and vulnerabilities of recurrent chordomas

Author

Carolin Seeling, André Lechel, Michael Svinarenko, Peter Möller, Thomas F. E. Barth, and Kevin Mellert

Subjects

Chordoma, Cell lines, Progression model, HOX, PBX, Apoptosis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Tumor recurrence is one of the major challenges in clinical management of chordoma. Despite R0-resection, approximately 50% of chordomas recur within ten years after initial surgery. The underlying molecular processes are poorly understood resulting in the lack of associated therapeutic options. This is not least due to the absence of appropriate cell culture models of this orphan disease. Methods The intra-personal progression model cell lines U-CH11 and U-CH11R were compared using array comparative genomic hybridization, expression arrays, RNA-seq, and immunocytochemistry. Cell line origin was confirmed by short tandem repeat analysis. Inter-personal cell culture models (n = 6) were examined to validate whether the new model is representative. Cell viability after HOX/PBX complex inhibition with small peptides was determined by MTS assays. Results Using whole genome microarray analyses, striking differences in gene expression between primary and recurrent chordomas were identified. These expression differences were confirmed in the world’s first intra-personal model of chordoma relapse consisting of cell lines established from a primary (U-CH11) and the corresponding recurrent tumor (U-CH11R). Array comparative genomic hybridization and RNA-sequencing analyses revealed profound genetic similarities between both cell lines pointing to transcriptomic reprogramming as a key mechanism of chordoma progression. Network analysis of the recurrence specific genes highlighted HOX/PBX signaling as a common dysregulated event. Hence, HOX/PBX complexes were used as so far unknown therapeutic targets in recurrent chordomas. Treating chordoma cell lines with the complex formation inhibiting peptide HXR9 induced cFOS mediated apoptosis in all chordoma cell lines tested. This effect was significantly stronger in cell lines established from chordoma relapses. Conclusion Clearly differing gene expression patterns and vulnerabilities to HOX/PBX complex inhibition in highly therapy resistant chordoma relapses were identified using the first intra-personal loco-regional and further inter-personal chordoma progression models. For the first time, HOX/PBX interference was used to induce cell death in chordoma and might serve as the basic concept of an upcoming targeted therapy for chordomas of all progression stages.

Published

2021

8. p53-Independent Induction of p21 Fails to Control Regeneration and Hepatocarcinogenesis in a Murine Liver Injury Model

Author

Buitrago-Molina, Laura Elisa, Marhenke, Silke, Becker, Diana, Geffers, Robert, Itzel, Timo, Teufel, Andreas, Jaeschke, Hartmut, Lechel, André, Unger, Kristian, Markovic, Jovana, Sharma, Amar Deep, Marquardt, Jens U., Saborowski, Michael, Saborowski, Anna, and Vogel, Arndt

Published

2021

9. p53-Independent Induction of p21 Fails to Control Regeneration and Hepatocarcinogenesis in a Murine Liver Injury ModelSummary

Author

Laura Elisa Buitrago-Molina, Silke Marhenke, Diana Becker, Robert Geffers, Timo Itzel, Andreas Teufel, Hartmut Jaeschke, André Lechel, Kristian Unger, Jovana Markovic, Amar Deep Sharma, Jens U. Marquardt, Michael Saborowski, Anna Saborowski, and Arndt Vogel

Subjects

DNA Damage, Oxidative Stress Response, CHK2, HCC, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background & Aims: A coordinated stress and regenerative response is important after hepatocyte damage. Here, we investigate the phenotypes that result from genetic abrogation of individual components of the checkpoint kinase 2/transformation-related protein 53 (p53)/cyclin-dependent kinase inhibitor 1A (p21) pathway in a murine model of metabolic liver injury. Methods: Nitisinone was reduced or withdrawn in Fah-/- mice lacking Chk2, p53, or p21, and survival, tumor development, liver injury, and regeneration were analyzed. Partial hepatectomies were performed and mice were challenged with the Fas antibody Jo2. Results: In a model of metabolic liver injury, loss of p53, but not Chk2, impairs the oxidative stress response and aggravates liver damage, indicative of a direct p53-dependent protective effect on hepatocytes. Cell-cycle control during chronic liver injury critically depends on the presence of both p53 and its downstream effector p21. In p53-deficient hepatocytes, unchecked proliferation occurs despite a strong induction of p21, showing a complex interdependency between p21 and p53. The increased regenerative potential in the absence of p53 cannot fully compensate the surplus injury and is not sufficient to promote survival. Despite the distinct phenotypes associated with the loss of individual components of the DNA damage response, gene expression patterns are dominated by the severity of liver injury, but reflect distinct effects of p53 on proliferation and the anti-oxidative stress response. Conclusions: Characteristic phenotypes result from the genetic abrogation of individual components of the DNA damage-response cascade in a liver injury model. The extent to which loss of gene function can be compensated, or affects injury and proliferation, is related to the level at which the cascade is interrupted. Accession numbers of repository for expression microarray data: GSE156983, GSE156263, GSE156852, and GSE156252.

Published

2021

10. Identification, Stability Studies and Structural Elucidation of an Oxidative Degradant of Cabergoline Drug Substance

Author

Lechel, Tilman, primary, Silva Otero, Ruben, additional, Springer, Andreas, additional, Rutkowski, Anja, additional, Matzkow, Dominik, additional, Zart, Johannes, additional, Hartmann, Tobias, additional, and Hochhut, Dieter, additional

Published

2024

11. Molecular features and vulnerabilities of recurrent chordomas

Author

Seeling, Carolin, Lechel, André, Svinarenko, Michael, Möller, Peter, Barth, Thomas F. E., and Mellert, Kevin

Published

2021

12. A three-dimensional lithospheric-scale thermal model of Germany

Author

D. Anikiev, A. Lechel, M. L. Gomez Dacal, J. Bott, M. Cacace, and M. Scheck-Wenderoth

Subjects

Science, Geology, QE1-996.5, Dynamic and structural geology, QE500-639.5

Abstract

We present a 3-D lithospheric-scale model covering the area of Germany that images the regional characteristics of the structural configuration and of the thermal field. The structural model resolves major sedimentary, crustal and lithospheric mantle units integrated from previous studies of the Central European Basin System, the Upper Rhine Graben and the Molasse Basin, together with published geological and geophysical data. A combined workflow consisting of 3-D structural, gravity and thermal modelling is applied to derive the 3-D thermal configuration. The modelled temperature distribution is highly variable in response to an imposed heterogeneous distribution of thermal properties assigned to the different units. First order variations in the temperature field are mainly attributed to the thermal blanketing effect from the sedimentary cover, the variability in the amount of radiogenic heat produced within the different crystalline crust compartments and the implemented topology of the thermal Lithosphere-Asthenosphere Boundary.

Published

2019

13. Small Extracellular Vesicles Propagate the Inflammatory Response After Trauma

Author

Tanja Seibold, Jonathan Schönfelder, Florian Weeber, André Lechel, Milena Armacki, Mareike Waldenmaier, Christoph Wille, Annette Palmer, Rebecca Halbgebauer, Ebru Karasu, Markus Huber‐Lang, Miriam Kalbitz, Peter Radermacher, Stephan Paschke, Thomas Seufferlein, and Tim Eiseler

Subjects

endothelium, inflammation, neutrophils, small extracellular vesicles, trauma, Science

Abstract

Abstract Trauma is the leading cause of death in individuals under 44 years of age. Thorax trauma (TxT) is strongly associated with trauma‐related death, an unbalanced innate immune response, sepsis, acute respiratory distress syndrome, and multiple organ dysfunction. It is shown that different in vivo traumata, such as TxT or an in vitro polytrauma cytokine cocktail trigger secretion of small extracellular nanovesicles (sEVs) from endothelial cells with pro‐inflammatory cargo. These sEVs transfer transcripts for ICAM‐1, VCAM‐1, E‐selectin, and cytokines to systemically activate the endothelium, facilitate neutrophil‐endothelium interactions, and destabilize barrier integrity. Inhibition of sEV‐release after TxT in mice ameliorates local as well as systemic inflammation, neutrophil infiltration, and distant organ damage in kidneys (acute kidney injury, AKI). Vice versa, injection of TxT‐plasma‐sEVs into healthy animals is sufficient to trigger pulmonary and systemic inflammation as well as AKI. Accordingly, increased sEV concentrations and transfer of similar cargos are observed in polytrauma patients, suggesting a fundamental pathophysiological mechanism.

Published

2021

14. Elevated Hedgehog activity contributes to attenuated DNA damage responses in aged hematopoietic cells

Author

Scheffold, Annika, Baig, Ali H., Chen, Zhiyang, von Löhneysen, Sarah E., Becker, Friedrich, Morita, Yohei, Avila, Alush I., Groth, Marco, Lechel, André, Schmid, Florian, Kraus, Johann M., Kestler, Hans A., Stilgenbauer, Stephan, Philipp, Melanie, and Burkhalter, Martin D.

Published

2020

15. Aneuploidy-inducing gene knockdowns overlap with cancer mutations and identify Orp3 as a B-cell lymphoma suppressor

Author

Njeru, Sospeter N., Kraus, Johann, Meena, Jitendra K., Lechel, André, Katz, Sarah-Fee, Kumar, Mukesh, Knippschild, Uwe, Azoitei, Anca, Wezel, Felix, Bolenz, Christian, Leithäuser, Frank, Gollowitzer, André, Omrani, Omid, Hoischen, Christian, Koeberle, Andreas, Kestler, Hans A., Günes, Cagatay, and Rudolph, K. Lenhard

Published

2020

16. Functional Genomic Screening During Somatic Cell Reprogramming Identifies DKK3 as a Roadblock of Organ Regeneration

Author

Frank Arnold, Pallavi U Mahaddalkar, Johann M. Kraus, Xiaowei Zhong, Wendy Bergmann, Dharini Srinivasan, Johann Gout, Elodie Roger, Alica K. Beutel, Eugen Zizer, Umesh Tharehalli, Nora Daiss, Ronan Russell, Lukas Perkhofer, Rupert Oellinger, Qiong Lin, Ninel Azoitei, Frank‐Ulrich Weiss, Markus M. Lerch, Stefan Liebau, Sarah‐Fee Katz, André Lechel, Roland Rad, Thomas Seufferlein, Hans A. Kestler, Michael Ott, Amar Deep Sharma, Patrick C. Hermann, and Alexander Kleger

Subjects

functional shRNA screen, regeneration, reprogramming, Wnt‐/Hedgehog‐signaling, Science

Abstract

Abstract Somatic cell reprogramming and tissue repair share relevant factors and molecular programs. Here, Dickkopf‐3 (DKK3) is identified as novel factor for organ regeneration using combined transcription‐factor‐induced reprogramming and RNA‐interference techniques. Loss of Dkk3 enhances the generation of induced pluripotent stem cells but does not affect de novo derivation of embryonic stem cells, three‐germ‐layer differentiation or colony formation capacity of liver and pancreatic organoids. However, DKK3 expression levels in wildtype animals and serum levels in human patients are elevated upon injury. Accordingly, Dkk3‐null mice display less liver damage upon acute and chronic failure mediated by increased proliferation in hepatocytes and LGR5+ liver progenitor cell population, respectively. Similarly, recovery from experimental pancreatitis is accelerated. Regeneration onset occurs in the acinar compartment accompanied by virtually abolished canonical‐Wnt‐signaling in Dkk3‐null animals. This results in reduced expression of the Hedgehog repressor Gli3 and increased Hedgehog‐signaling activity upon Dkk3 loss. Collectively, these data reveal Dkk3 as a key regulator of organ regeneration via a direct, previously unacknowledged link between DKK3, canonical‐Wnt‐, and Hedgehog‐signaling.

Published

2021

17. The LANCA three-component reaction to highly substituted β-ketoenamides – versatile intermediates for the synthesis of functionalized pyridine, pyrimidine, oxazole and quinoxaline derivatives

Author

Tilman Lechel, Roopender Kumar, Mrinal K. Bera, Reinhold Zimmer, and Hans-Ulrich Reissig

Subjects

allenes, condensations, multicomponent reactions, oxazoles, pyrimidines, quinoxalines, Science, Organic chemistry, QD241-441

Abstract

The LANCA three-component reaction of lithiated alkoxyallenes LA, nitriles N and carboxylic acids CA leads to β-ketoenamides KE in good to excellent yields. The scope of this reaction is very broad and almost all types of nitriles and carboxylic acids have successfully been used. The alkoxy group introduced via the allene component is also variable and hence the subsequent transformation of this substituent into a hydroxy group can be performed under different conditions. Enantiopure nitriles or carboxylic acids can also be employed leading to chiral KE with high enantiopurity and dinitriles or dicarboxylic acids also lead to the expected bis-β-ketoenamides. β-Ketoenamides incorporate a unique combination of functional groups and hence a manifold of subsequent reactions to highly substituted heterocyclic compounds is possible. An intramolecular aldol-type condensation reaction efficiently furnishes pyridin-4-ols PY that can be further modified by palladium-catalyzed reactions, e.g., to specifically substituted furopyridine derivatives. Condensations of β-ketoenamides with ammonium salts or with hydroxylamine hydrochloride afford pyrimidines PM or pyrimidine N-oxides PO with a highly flexible substitution pattern in good yields. The functional groups of these heterocycles also allow a variety of subsequent reactions to various pyrimidine derivatives. On the other hand, acid-labile alkoxy substituents such as a 2-(trimethylsilyl)ethoxy group are required for the conversion of β-ketoenamides into 5-acetyl-substituted oxazoles OX, again compounds with high potential for subsequent functional group transformations. For acid labile β-ketoenamides bearing bulky substituents the acid treatment leads to acylamido-substituted 1,2-diketones DK that could be converted into quinoxalines QU. All classes of heterocycles accessed through the key β-ketoenamides show a unique substitution pattern – not easily accomplishable by alternative methods – and therefore many subsequent reactions are possible.

Published

2019

18. Author Correction: Epigenetic stress responses induce muscle stem-cell ageing by Hoxa9 developmental signals

Author

Schwörer, Simon, Becker, Friedrich, Feller, Christian, Baig, Ali H., Köber, Ute, Henze, Henriette, Kraus, Johann M., Xin, Beibei, Lechel, André, Lipka, Daniel B., Varghese, Christy S., Schmidt, Manuel, Rohs, Remo, Aebersold, Ruedi, Medina, Kay L., Kestler, Hans A., Neri, Francesco, von Maltzahn, Julia, Tümpel, Stefan, and Rudolph, K. Lenhard

Published

2019

19. A Decade of Rethinking Creativity, Technology and Learning: Reflections with the Deep-Play Research Group

Author

Sarah F. Keenan-Lechel, Melissa Warr, Carmen Richardson, Punya Mishra, Rohit Mehta, Danah Henriksen, and Natalie Gruber

Subjects

Computer Science Applications, Education

Published

2022

20. IFN-γ treatment protocol for MHC-Ilo/PD-L1+ pancreatic tumor cells selectively restores their TAP-mediated presentation competence and CD8 T-cell priming potential

Author

Johann Gout, Thomas Seufferlein, Alexander Kleger, Katja Stifter, Jana Krieger, Leonie Ruths, Medhanie Mulaw, Andre Lechel, Martin Wagner, and Reinhold Schirmbeck

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background Many cancer cells express a major histocompatibility complex class I low/ programmed cell death 1 ligand 1 positive (MHC-Ilo/PD-L1+) cell surface profile. For immunotherapy, there is, thus, an urgent need to restore presentation competence of cancer cells with defects in MHC-I processing/presentation combined with immune interventions that tackle the tumor-initiated PD-L1/PD-1 signaling axis. Using pancreatic ductal adenocarcinoma cells (PDACCs) as a model, we here explored if (and how) expression/processing of tumor antigens via transporters associated with antigen processing (TAP) affects priming of CD8 T cells in PD-1/PD-L1-competent/-deficient mice.Methods We generated tumor antigen-expressing vectors, immunized TAP-competent/-deficient mice and determined de novo primed CD8 T-cell frequencies by flow cytometry. Similarly, we explored the antigenicity and PD-L1/PD-1 sensitivity of PDACCs versus interferon-γ (IFN-γ)-treated PDACCs in PD-1/PD-L1-competent/deficient mice. The IFN-γ-induced effects on gene and cell surface expression profiles were determined by microarrays and flow cytometry.Results We identified two antigens (cripto-1 and an endogenous leukemia virus-derived gp70) that were expressed in the Endoplasmic Reticulum (ER) of PDACCs and induced CD8 T-cell responses either independent (Cripto-1:Kb/Cr16-24) or dependent (gp70:Kb/p15E) on TAP by DNA immunization. IFN-γ-treatment of PDACCs in vitro upregulated MHC-I- and TAP- but also PD-L1-expression. Mechanistically, PD-L1/PD-1 signaling was superior to the reconstitution of MHC-I presentation competence, as subcutaneously transplanted IFN-γ-treated PDACCs developed tumors in C57BL/6J and PD-L1-/- but not in PD-1-/- mice. Using PDACCs, irradiated at day 3 post-IFN-γ-treatment or PD-L1 knockout PDACCs as vaccines, we could selectively bypass upregulation of PD-L1, preferentially induce TAP-dependent gp70:Kb/p15E-specific CD8 T cells associated with a weakened PD-1+ exhaustion phenotype and reject consecutively injected tumor transplants in C57BL/6J mice.Conclusions The IFN-γ-treatment protocol is attractive for cell-based immunotherapies, because it restores TAP-dependent antigen processing in cancer cells, facilitates priming of TAP-dependent effector CD8 T-cell responses without additional check point inhibitors and could be combined with genetic vaccines that complement priming of TAP-independent CD8 T cells.

Published

2020

21. Creativity as a Sliding Maze: an Interview with Dr. James C. Kaufman

Author

Keenan-Lechel, Sarah F., Henriksen, Danah, Mishra, Punya, and the Deep-Play Research Group

Published

2018

22. HOXA7, HOXA9, and HOXA10 are differentially expressed in clival and sacral chordomas

Author

Daniela Jäger, Thomas F. E. Barth, Silke Brüderlein, Angelika Scheuerle, Beate Rinner, Adrian von Witzleben, André Lechel, Patrick Meyer, Regine Mayer-Steinacker, Alexandra von Baer, Markus Schultheiss, Christian R. Wirtz, Peter Möller, and Kevin Mellert

Subjects

Medicine, Science

Abstract

Abstract Chordomas are rare tumours of the bone arising along the spine from clivus to sacrum. We compared three chordoma cell lines of the clivus region including the newly established clivus chordoma cell line, U-CH14, with nine chordoma cell lines originating from sacral primaries by morphology, on genomic and expression levels and with patient samples from our chordoma tissue bank. Clinically, chordomas of the clivus were generally smaller in size at presentation and patients with sacral chordomas had more metastases and more often recurrent disease. All chordoma cell lines had a typical physaliphorous morphology and expressed brachyury, S100-protein and cytokeratin. By expression analyses we detected differentially expressed genes in the clivus derived cell lines as compared to the sacral cell lines. Among these were HOXA7, HOXA9, and HOXA10 known to be important for the development of the anterior-posterior body axis. These results were confirmed by qPCR. Immunohistologically, clivus chordomas had no or very low levels of HOXA10 protein while sacral chordomas showed a strong nuclear positivity in all samples analysed. This differential expression of HOX genes in chordomas of the clivus and sacrum suggests an oncofetal mechanism in gene regulation linked to the anatomic site.

Published

2017

23. CD8 T cell-mediated depletion of HBV surface-antigen-expressing, bilineal-differentiated liver carcinoma cells generates highly aggressive escape variants

Author

Qiu, Na, primary, Srikanth, Akshaya, additional, Mulaw, Medhanie, additional, Tharehalli, Umesh, additional, Selvachandran, Shanthiya, additional, Wagner, Martin, additional, Seufferlein, Thomas, additional, Stifter, Katja, additional, Lechel, André, additional, and Schirmbeck, Reinhold, additional

Published

2023

24. Abstract 6242: Inhibition of BIRC5/survivin by LQZ-7I inhibits neuroblastoma growth while hemizygosity of BIRC5 does not: implications for therapy of neuroblastoma

Author

Dorneburg, Carmen, primary, Galliger, Celimene, additional, Rasche, Voker, additional, Lechel, Andre, additional, Barth, Thomas F., additional, Debatin, Klaus-Michael, additional, and Beltinger, Christian, additional

Published

2023

25. Figure S5 Tumour growth upon ATRi and Gemcitabine Treatment in Allografts model from ATM Deficiency Generating Genomic Instability Sensitizes Pancreatic Ductal Adenocarcinoma Cells to Therapy-Induced DNA Damage

Author

Perkhofer, Lukas, primary, Schmitt, Anna, primary, Romero Carrasco, Maria Carolina, primary, Ihle, Michaela, primary, Hampp, Stephanie, primary, Ruess, Dietrich Alexander, primary, Hessmann, Elisabeth, primary, Russell, Ronan, primary, Lechel, André, primary, Azoitei, Ninel, primary, Lin, Qiong, primary, Liebau, Stefan, primary, Hohwieler, Meike, primary, Bohnenberger, Hanibal, primary, Lesina, Marina, primary, Algül, Hana, primary, Gieldon, Laura, primary, Schröck, Evelin, primary, Gaedcke, Jochen, primary, Wagner, Martin, primary, Wiesmüller, Lisa, primary, Sipos, Bence, primary, Seufferlein, Thomas, primary, Reinhardt, Hans Christian, primary, Frappart, Pierre-Olivier, primary, and Kleger, Alexander, primary

Published

2023

26. Figure S2 from ATM Deficiency Generating Genomic Instability Sensitizes Pancreatic Ductal Adenocarcinoma Cells to Therapy-Induced DNA Damage

Author

Perkhofer, Lukas, primary, Schmitt, Anna, primary, Romero Carrasco, Maria Carolina, primary, Ihle, Michaela, primary, Hampp, Stephanie, primary, Ruess, Dietrich Alexander, primary, Hessmann, Elisabeth, primary, Russell, Ronan, primary, Lechel, André, primary, Azoitei, Ninel, primary, Lin, Qiong, primary, Liebau, Stefan, primary, Hohwieler, Meike, primary, Bohnenberger, Hanibal, primary, Lesina, Marina, primary, Algül, Hana, primary, Gieldon, Laura, primary, Schröck, Evelin, primary, Gaedcke, Jochen, primary, Wagner, Martin, primary, Wiesmüller, Lisa, primary, Sipos, Bence, primary, Seufferlein, Thomas, primary, Reinhardt, Hans Christian, primary, Frappart, Pierre-Olivier, primary, and Kleger, Alexander, primary

Published

2023

27. Figure S1 GSEA Analysis from ATM Deficiency Generating Genomic Instability Sensitizes Pancreatic Ductal Adenocarcinoma Cells to Therapy-Induced DNA Damage

Author

Perkhofer, Lukas, primary, Schmitt, Anna, primary, Romero Carrasco, Maria Carolina, primary, Ihle, Michaela, primary, Hampp, Stephanie, primary, Ruess, Dietrich Alexander, primary, Hessmann, Elisabeth, primary, Russell, Ronan, primary, Lechel, André, primary, Azoitei, Ninel, primary, Lin, Qiong, primary, Liebau, Stefan, primary, Hohwieler, Meike, primary, Bohnenberger, Hanibal, primary, Lesina, Marina, primary, Algül, Hana, primary, Gieldon, Laura, primary, Schröck, Evelin, primary, Gaedcke, Jochen, primary, Wagner, Martin, primary, Wiesmüller, Lisa, primary, Sipos, Bence, primary, Seufferlein, Thomas, primary, Reinhardt, Hans Christian, primary, Frappart, Pierre-Olivier, primary, and Kleger, Alexander, primary

Published

2023

28. Supplementary Data from RINT1 Regulates SUMOylation and the DNA Damage Response to Preserve Cellular Homeostasis in Pancreatic Cancer

Author

Arnold, Frank, primary, Gout, Johann, primary, Wiese, Heike, primary, Weissinger, Stephanie E., primary, Roger, Elodie, primary, Perkhofer, Lukas, primary, Walter, Karolin, primary, Scheible, Jeanette, primary, Prelli Bozzo, Caterina, primary, Lechel, André, primary, Ettrich, Thomas J., primary, Azoitei, Ninel, primary, Hao, Li, primary, Fürstberger, Axel, primary, Kaminska, Ewa K., primary, Sparrer, Konstantin M.J., primary, Rasche, Volker, primary, Wiese, Sebastian, primary, Kestler, Hans A., primary, Möller, Peter, primary, Seufferlein, Thomas, primary, Frappart, Pierre-Olivier, primary, and Kleger, Alexander, primary

Published

2023

29. Table S1 from ATM Deficiency Generating Genomic Instability Sensitizes Pancreatic Ductal Adenocarcinoma Cells to Therapy-Induced DNA Damage

Author

Perkhofer, Lukas, primary, Schmitt, Anna, primary, Romero Carrasco, Maria Carolina, primary, Ihle, Michaela, primary, Hampp, Stephanie, primary, Ruess, Dietrich Alexander, primary, Hessmann, Elisabeth, primary, Russell, Ronan, primary, Lechel, André, primary, Azoitei, Ninel, primary, Lin, Qiong, primary, Liebau, Stefan, primary, Hohwieler, Meike, primary, Bohnenberger, Hanibal, primary, Lesina, Marina, primary, Algül, Hana, primary, Gieldon, Laura, primary, Schröck, Evelin, primary, Gaedcke, Jochen, primary, Wagner, Martin, primary, Wiesmüller, Lisa, primary, Sipos, Bence, primary, Seufferlein, Thomas, primary, Reinhardt, Hans Christian, primary, Frappart, Pierre-Olivier, primary, and Kleger, Alexander, primary

Published

2023

30. Data from ATM Deficiency Generating Genomic Instability Sensitizes Pancreatic Ductal Adenocarcinoma Cells to Therapy-Induced DNA Damage

Author

Perkhofer, Lukas, primary, Schmitt, Anna, primary, Romero Carrasco, Maria Carolina, primary, Ihle, Michaela, primary, Hampp, Stephanie, primary, Ruess, Dietrich Alexander, primary, Hessmann, Elisabeth, primary, Russell, Ronan, primary, Lechel, André, primary, Azoitei, Ninel, primary, Lin, Qiong, primary, Liebau, Stefan, primary, Hohwieler, Meike, primary, Bohnenberger, Hanibal, primary, Lesina, Marina, primary, Algül, Hana, primary, Gieldon, Laura, primary, Schröck, Evelin, primary, Gaedcke, Jochen, primary, Wagner, Martin, primary, Wiesmüller, Lisa, primary, Sipos, Bence, primary, Seufferlein, Thomas, primary, Reinhardt, Hans Christian, primary, Frappart, Pierre-Olivier, primary, and Kleger, Alexander, primary

Published

2023

31. Data from RINT1 Regulates SUMOylation and the DNA Damage Response to Preserve Cellular Homeostasis in Pancreatic Cancer

Author

Arnold, Frank, primary, Gout, Johann, primary, Wiese, Heike, primary, Weissinger, Stephanie E., primary, Roger, Elodie, primary, Perkhofer, Lukas, primary, Walter, Karolin, primary, Scheible, Jeanette, primary, Prelli Bozzo, Caterina, primary, Lechel, André, primary, Ettrich, Thomas J., primary, Azoitei, Ninel, primary, Hao, Li, primary, Fürstberger, Axel, primary, Kaminska, Ewa K., primary, Sparrer, Konstantin M.J., primary, Rasche, Volker, primary, Wiese, Sebastian, primary, Kestler, Hans A., primary, Möller, Peter, primary, Seufferlein, Thomas, primary, Frappart, Pierre-Olivier, primary, and Kleger, Alexander, primary

Published

2023

32. Figure S3 Tumour growth upon Olaparib and Gemcitabine Treatment in Allografts model from ATM Deficiency Generating Genomic Instability Sensitizes Pancreatic Ductal Adenocarcinoma Cells to Therapy-Induced DNA Damage

Author

Perkhofer, Lukas, primary, Schmitt, Anna, primary, Romero Carrasco, Maria Carolina, primary, Ihle, Michaela, primary, Hampp, Stephanie, primary, Ruess, Dietrich Alexander, primary, Hessmann, Elisabeth, primary, Russell, Ronan, primary, Lechel, André, primary, Azoitei, Ninel, primary, Lin, Qiong, primary, Liebau, Stefan, primary, Hohwieler, Meike, primary, Bohnenberger, Hanibal, primary, Lesina, Marina, primary, Algül, Hana, primary, Gieldon, Laura, primary, Schröck, Evelin, primary, Gaedcke, Jochen, primary, Wagner, Martin, primary, Wiesmüller, Lisa, primary, Sipos, Bence, primary, Seufferlein, Thomas, primary, Reinhardt, Hans Christian, primary, Frappart, Pierre-Olivier, primary, and Kleger, Alexander, primary

Published

2023

33. Supplementary Figure 9 from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

34. Supplementary Figure 5 from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

35. Supplementary Table 5 from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

36. Supplementary Table 3 from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

37. Supplementary Table 4 from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

38. Supplementary Table 2 from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

39. Supplementary Figure 1 from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

40. Supplementary Figure Legend from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

41. Supplementary Figure 7 from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

42. Data Supplement from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

43. Supplementary Figure 2 from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

44. Supplementary Figure 8 from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

45. Supplementary Table 1 from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

46. Supplementary Figure 3 from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

47. Supplementary Figure 4A, B from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

48. Data from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

49. Supplementary Figure 4C from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023

50. Supplementary Figure 6 from Preclinical Characterization of Novel Chordoma Cell Systems and Their Targeting by Pharmocological Inhibitors of the CDK4/6 Cell-Cycle Pathway

Author

von Witzleben, Adrian, primary, Goerttler, Lukas T., primary, Marienfeld, Ralf, primary, Barth, Holger, primary, Lechel, André, primary, Mellert, Kevin, primary, Böhm, Michael, primary, Kornmann, Marko, primary, Mayer-Steinacker, Regine, primary, von Baer, Alexandra, primary, Schultheiss, Markus, primary, Flanagan, Adrienne M., primary, Möller, Peter, primary, Brüderlein, Silke, primary, and Barth, Thomas F.E., primary

Published

2023