Your search keyword '"Andreas Trumpp"' showing total 407 results

1. Mutation analysis in individual circulating tumor cells depicts intratumor heterogeneity in melanoma

Author

Mark Sementsov, Leonie Ott, Julian Kött, Alexander Sartori, Amelie Lusque, Sarah Degenhardt, Bertille Segier, Isabel Heidrich, Beate Volkmer, Rüdiger Greinert, Peter Mohr, Ronald Simon, Julia-Christina Stadler, Darryl Irwin, Claudia Koch, Antje Andreas, Benjamin Deitert, Verena Thewes, Andreas Trumpp, Andreas Schneeweiss, Yassine Belloum, Sven Peine, Harriett Wikman, Sabine Riethdorf, Stefan W Schneider, Christoffer Gebhardt, Klaus Pantel, and Laura Keller

Subjects

Circulating Tumor Cells, Tumor, Heterogeneity, Melanoma, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Circulating tumor DNA (ctDNA) is the cornerstone of liquid biopsy diagnostics, revealing clinically relevant genomic aberrations from blood of cancer patients. Genomic analysis of single circulating tumor cells (CTCs) could provide additional insights into intra-patient heterogeneity, but it requires whole-genome amplification (WGA) of DNA, which might introduce bias. Here, we describe a novel approach based on mass spectrometry for mutation detection from individual CTCs not requiring WGA and complex bioinformatics pipelines. After establishment of our protocol on tumor cell line-derived single cells, it was validated on CTCs of 33 metastatic melanoma patients and the mutations were compared to those obtained from tumor tissue and ctDNA. Although concordance with tumor tissue was superior for ctDNA over CTC analysis, a larger number of mutations were found within CTCs compared to ctDNA (p = 0.039), including mutations in melanoma driver genes, or those associated with resistance to therapy or metastasis. Thus, our results demonstrate proof-of-principle data that CTC analysis can provide clinically relevant genomic information that is not redundant to tumor tissue or ctDNA analysis.

Published

2024

2. Diagnostic leukapheresis reveals distinct phenotypes of NSCLC circulating tumor cells

Author

Lisa-Marie Rieckmann, Michael Spohn, Lisa Ruff, David Agorku, Lisa Becker, Alina Borchers, Jenny Krause, Roisin O’Reilly, Jurek Hille, Janna-Lisa Velthaus-Rusik, Niklas Beumer, Armin Günther, Lena Willnow, Charles D. Imbusch, Peter Iglauer, Ronald Simon, Sören Franzenburg, Hauke Winter, Michael Thomas, Carsten Bokemeyer, Nicola Gagliani, Christian F. Krebs, Martin Sprick, Olaf Hardt, Sabine Riethdorf, Andreas Trumpp, Nikolas H. Stoecklein, Sven Peine, Philipp Rosenstiel, Klaus Pantel, Sonja Loges, and Melanie Janning

Subjects

Circulating tumor cells, Non-small cell lung cancer, Single cell RNA sequencing, Intratumor heterogeneity, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Circulating tumor cells (CTCs) hold immense promise for unraveling tumor heterogeneity and understanding treatment resistance. However, conventional methods, especially in cancers like non-small cell lung cancer (NSCLC), often yield low CTC numbers, hindering comprehensive analyses. This study addresses this limitation by employing diagnostic leukapheresis (DLA) to cancer patients, enabling the screening of larger blood volumes. To leverage DLA’s full potential, this study introduces a novel approach for CTC enrichment from DLAs. Methods DLA was applied to six advanced stage NSCLC patients. For an unbiased CTC enrichment, a two-step approach based on negative depletion of hematopoietic cells was used. Single-cell (sc) whole-transcriptome sequencing was performed, and CTCs were identified based on gene signatures and inferred copy number variations. Results Remarkably, this innovative approach led to the identification of unprecedented 3,363 CTC transcriptomes. The extensive heterogeneity among CTCs was unveiled, highlighting distinct phenotypes related to the epithelial-mesenchymal transition (EMT) axis, stemness, immune responsiveness, and metabolism. Comparison with sc transcriptomes from primary NSCLC cells revealed that CTCs encapsulate the heterogeneity of their primary counterparts while maintaining unique CTC-specific phenotypes. Conclusions In conclusion, this study pioneers a transformative method for enriching CTCs from DLA, resulting in a substantial increase in CTC numbers. This allowed the creation of the first-ever single-cell whole transcriptome in-depth characterization of the heterogeneity of over 3,300 NSCLC-CTCs. The findings not only confirm the diagnostic value of CTCs in monitoring tumor heterogeneity but also propose a CTC-specific signature that can be exploited for targeted CTC-directed therapies in the future. This comprehensive approach signifies a major leap forward, positioning CTCs as a key player in advancing our understanding of cancer dynamics and paving the way for tailored therapeutic interventions.

Published

2024

3. Ferroptosis in health and disease

Author

Carsten Berndt, Hamed Alborzinia, Vera Skafar Amen, Scott Ayton, Uladzimir Barayeu, Alexander Bartelt, Hülya Bayir, Christina M. Bebber, Kivanc Birsoy, Jan P. Böttcher, Simone Brabletz, Thomas Brabletz, Ashley R. Brown, Bernhard Brüne, Giorgia Bulli, Alix Bruneau, Quan Chen, Gina M. DeNicola, Tobias P. Dick, Ayelén Distéfano, Scott J. Dixon, Jan B. Engler, Julia Esser-von Bieren, Maria Fedorova, José Pedro Friedmann Angeli, Manuel A. Friese, Dominic C. Fuhrmann, Ana J. García-Sáez, Karolina Garbowicz, Magdalena Götz, Wei Gu, Linda Hammerich, Behrouz Hassannia, Xuejun Jiang, Aicha Jeridi, Yun Pyo Kang, Valerian E. Kagan, David B. Konrad, Stefan Kotschi, Peng Lei, Marlène Le Tertre, Sima Lev, Deguang Liang, Andreas Linkermann, Carolin Lohr, Svenja Lorenz, Tom Luedde, Axel Methner, Bernhard Michalke, Anna V. Milton, Junxia Min, Eikan Mishima, Sebastian Müller, Hozumi Motohashi, Martina U. Muckenthaler, Shohei Murakami, James A. Olzmann, Gabriela Pagnussat, Zijan Pan, Thales Papagiannakopoulos, Lohans Pedrera Puentes, Derek A. Pratt, Bettina Proneth, Lukas Ramsauer, Raphael Rodriguez, Yoshiro Saito, Felix Schmidt, Carina Schmitt, Almut Schulze, Annemarie Schwab, Anna Schwantes, Mariluz Soula, Benedikt Spitzlberger, Brent R. Stockwell, Leonie Thewes, Oliver Thorn-Seshold, Shinya Toyokuni, Wulf Tonnus, Andreas Trumpp, Peter Vandenabeele, Tom Vanden Berghe, Vivek Venkataramani, Felix C.E. Vogel, Silvia von Karstedt, Fudi Wang, Frank Westermann, Chantal Wientjens, Christoph Wilhelm, Michele Wölk, Katherine Wu, Xin Yang, Fan Yu, Yilong Zou, and Marcus Conrad

Subjects

Cell death, Lipid peroxidation, Iron, Ischemia/reperfusion, Cancer, Neurodegeneration, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Ferroptosis is a pervasive non-apoptotic form of cell death highly relevant in various degenerative diseases and malignancies. The hallmark of ferroptosis is uncontrolled and overwhelming peroxidation of polyunsaturated fatty acids contained in membrane phospholipids, which eventually leads to rupture of the plasma membrane. Ferroptosis is unique in that it is essentially a spontaneous, uncatalyzed chemical process based on perturbed iron and redox homeostasis contributing to the cell death process, but that it is nonetheless modulated by many metabolic nodes that impinge on the cells’ susceptibility to ferroptosis. Among the various nodes affecting ferroptosis sensitivity, several have emerged as promising candidates for pharmacological intervention, rendering ferroptosis-related proteins attractive targets for the treatment of numerous currently incurable diseases. Herein, the current members of a Germany-wide research consortium focusing on ferroptosis research, as well as key external experts in ferroptosis who have made seminal contributions to this rapidly growing and exciting field of research, have gathered to provide a comprehensive, state-of-the-art review on ferroptosis. Specific topics include: basic mechanisms, in vivo relevance, specialized methodologies, chemical and pharmacological tools, and the potential contribution of ferroptosis to disease etiopathology and progression. We hope that this article will not only provide established scientists and newcomers to the field with an overview of the multiple facets of ferroptosis, but also encourage additional efforts to characterize further molecular pathways modulating ferroptosis, with the ultimate goal to develop novel pharmacotherapies to tackle the various diseases associated with – or caused by – ferroptosis.

Published

2024

4. An arms‐race against resistance: leukemic stem cells and lineage plasticity

Author

Alexander Waclawiczek, Aino‐Maija Leppä, Simon Renders, and Andreas Trumpp

Subjects

AML, lineage differentiation, LSC, plasticity, resistance, venetoclax, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Acute myeloid leukemia (AML) therapy is undergoing rapid development, but primary and acquired resistance to therapy complicates the prospect of a durable cure. Recent functional and single‐cell multi‐omics approaches have greatly expanded our knowledge of the diversity of lineage trajectories in AML settings. AML cells range from undifferentiated stem‐like cells to more differentiated myeloid or megakaryocyte/erythroid cells. Current clinically relevant drugs predominantly target the myeloid progenitor lineage, while monocyte‐ or stem cell‐like states can evade current AML treatment and may be targeted in the future with lineage‐specific inhibitors. The extent of aberrant lineage plasticity upon therapeutic pressure in AML cells in conjunction with hijacking of normal differentiation pathways is still a poorly understood topic. Insights into the mechanisms of lineage plasticity of AML stem cells could identify both therapy‐specific and cross‐drug resistance pathways and reveal novel strategies to overcome them.

Published

2024

5. Protocol of the IntenSify‐Trial: An open‐label phase I trial of the CYP3A inhibitor cobicistat and the cytostatics gemcitabine and nab‐paclitaxel in patients with advanced stage or metastatic pancreatic ductal adenocarcinoma to evaluate the combination's pharmacokinetics, safety, and efficacy

Author

Nicolas Hohmann, Martin Ronald Sprick, Moritz Pohl, Azaz Ahmed, Jürgen Burhenne, Marietta Kirchner, Lucian Le Cornet, Markus Kratzmann, Jacek Hajda, Albrecht Stenzinger, Karen Steindorf, Stefan Delorme, Heinz‐Peter Schlemmer, Sabine Riethdorf, Ron vanSchaik, Klaus Pantel, Jens Siveke, Thomas Seufferlein, Dirk Jäger, Walter E. Haefeli, Andreas Trumpp, and Christoph Springfeld

Subjects

Therapeutics. Pharmacology, RM1-950, Public aspects of medicine, RA1-1270

Abstract

Abstract Expression of CYP3A5 protein is a basal and acquired resistance mechanism of pancreatic ductal adenocarcinoma cells conferring protection against the CYP3A and CYP2C8 substrate paclitaxel through metabolic degradation. Inhibition of CYP3A isozymes restores the cells sensitivity to paclitaxel. The combination of gemcitabine and nab‐paclitaxel is an established regimen for the treatment of metastasized or locally advanced inoperable pancreatic cancer. Cobicistat is a CYP3A inhibitor developed for the pharmacoenhancement of protease inhibitors. The addition of cobicistat to gemcitabine and nab‐paclitaxel may increase the antitumor effect. We will conduct a phase I dose escalation trial with a classical 3 + 3 design to investigate the safety, tolerability, and pharmacokinetics (PKs) of gemcitabine, nab‐paclitaxel, and cobicistat. Although the doses of gemcitabine (1000 mg/m2) and cobicistat (150 mg) are fixed, three dose levels of nab‐paclitaxel (75, 100, and 125 mg/m2) will be explored to account for a potential PK drug interaction. After the dose escalation phase, we will set the recommended dose for expansion (RDE) and treat up to nine patients in an expansion part of the trial. The trial is registered under the following identifiers EudraCT‐Nr. 2019‐001439‐29, drks.de: DRKS00029409, and ct.gov: NCT05494866. Overcoming resistance to paclitaxel by CYP3A5 inhibition may lead to an increased efficacy of the gemcitabine and nab‐paclitaxel regimen. Safety, efficacy, PK, and RDE data need to be acquired before investigating this combination in a large‐scale clinical study.

Published

2023

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

Author

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

Subjects

ferroptosis, neuroblastoma, selenocysteine, selenoprotein, synthetic lethality, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Ferroptosis has emerged as an attractive strategy in cancer therapy. Understanding the operational networks regulating ferroptosis may unravel vulnerabilities that could be harnessed for therapeutic benefit. Using CRISPR‐activation screens in ferroptosis hypersensitive cells, we identify the selenoprotein P (SELENOP) receptor, LRP8, as a key determinant protecting MYCN‐amplified neuroblastoma cells from ferroptosis. Genetic deletion of LRP8 leads to ferroptosis as a result of an insufficient supply of selenocysteine, which is required for the translation of the antiferroptotic selenoprotein GPX4. This dependency is caused by low expression of alternative selenium uptake pathways such as system Xc−. The identification of LRP8 as a specific vulnerability of MYCN‐amplified neuroblastoma cells was confirmed in constitutive and inducible LRP8 knockout orthotopic xenografts. These findings disclose a yet‐unaccounted mechanism of selective ferroptosis induction that might be explored as a therapeutic strategy for high‐risk neuroblastoma and potentially other MYCN‐amplified entities.

Published

2023

7. HAPLN1 potentiates peritoneal metastasis in pancreatic cancer

Author

Lena Wiedmann, Francesca De Angelis Rigotti, Nuria Vaquero-Siguero, Elisa Donato, Elisa Espinet, Iris Moll, Elisenda Alsina-Sanchis, Hanibal Bohnenberger, Elena Fernandez-Florido, Ronja Mülfarth, Margherita Vacca, Jennifer Gerwing, Lena-Christin Conradi, Philipp Ströbel, Andreas Trumpp, Carolin Mogler, Andreas Fischer, and Juan Rodriguez-Vita

Subjects

Science

Abstract

Abstract Pancreatic ductal adenocarcinoma (PDAC) frequently metastasizes into the peritoneum, which contributes to poor prognosis. Metastatic spreading is promoted by cancer cell plasticity, yet its regulation by the microenvironment is incompletely understood. Here, we show that the presence of hyaluronan and proteoglycan link protein-1 (HAPLN1) in the extracellular matrix enhances tumor cell plasticity and PDAC metastasis. Bioinformatic analysis showed that HAPLN1 expression is enriched in the basal PDAC subtype and associated with worse overall patient survival. In a mouse model for peritoneal carcinomatosis, HAPLN1-induced immunomodulation favors a more permissive microenvironment, which accelerates the peritoneal spread of tumor cells. Mechanistically, HAPLN1, via upregulation of tumor necrosis factor receptor 2 (TNFR2), promotes TNF-mediated upregulation of Hyaluronan (HA) production, facilitating EMT, stemness, invasion and immunomodulation. Extracellular HAPLN1 modifies cancer cells and fibroblasts, rendering them more immunomodulatory. As such, we identify HAPLN1 as a prognostic marker and as a driver for peritoneal metastasis in PDAC.

Published

2023

8. S123: ACUTE MYELOID LEUKEMIA STEM CELL SUBTYPES DEFINED BY MUTATIONS AND DIFFERENTIATION STATE REGULATE APOPTOTIC DEPENDENCY AND CLINICAL RESPONSE TO VENETOCLAX.

Author

Alexander Waclawiczek, Aino-Maija Leppä, Simon Renders, Barbara Betz, Karolin Stumpf, Maike Jansen, Anne Kathrin Merbach, Rabia Shahswar, Christoph Röllig, Michael Heuser, Tim Sauer, Carsten Müller-Tidow, and Andreas Trumpp

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

9. P408: COMBINATORIAL BCL-2 FAMILY EXPRESSION IN ACUTE MYELOID LEUKEMIA STEM CELLS PREDICTS CLINICAL RESPONSE TO AZACITIDINE/VENETOCLAX

Author

Simon Renders, Alexander Waclawiczek, Aino-Maija Leppä, Karolin Stumpf, Barbara Betz, Cecilia Reyneri, Elisa Donato, Maike Janssen, Julia Unglaub, Rabia Shahswar, Simon Raffel, Michael Hundemer, Michael Heuser, Carsten Müller-Tidow, Tim Sauer, and Andreas Trumpp

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

10. P453: NOVEL INSIGHTS INTO MINIMAL RESIDUAL DISEASE OF ACUTE MYELOID LEUKEMIA USING PRIMARY SAMPLES AND A CLINICALLY RELEVANT PDX MODEL.

Author

Nesrine Aroua, Darja Karpova, Aino-Maija Leppä, Elisa Donato, Adriana Przybylla, Markus Sohn, Petra Zeisberger, Corinna Klein, Konstanze Döhner, and Andreas Trumpp

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

11. P470: SINGLE-CELL METABOLIC MULTIOMICS TO IDENTIFY VULNERABILITIES IN ACUTE MYELOID LEUKEMIA STEM CELLS

Author

Magdalena Antes, Eleni Besiridou, Maximilian Mönnig, Sergi Beneyto Calabuig, Andreas Trumpp, Carsten Müller-Tidow, Simon Haas, Lars Velten, and Simon Raffel

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

12. PB1759: RETAINED FUNCTIONAL NORMAL AND/OR PRE-LEUKEMIC HSCS IN THE BONE MARROW ARE ASSOCIATED TO GOOD PROGNOSIS IN DNMT3AMUTNPM1MUT AML PATIENTS

Author

Elisa Donato, Nadia Correia, Carolin Andresen, Darja Karpova, Roberto Würth, Corinna Klein, Markus Sohn, Adriana Przybylla, Petra Zeisberger, Kathrin Rothfelder, Helmut Salih, Halvard Bonig, Sebastian Stasik, Christoph Röllig, Anna Dolnik, Lars Bullinger, Frank Buchholz, Christian Thiede, Daniel Hübschmann, and Andreas Trumpp

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

13. P1218: A REPROGRAMMING OF THE LYMPH NODE MICROENVIRONMENT UNDERLIES LOSS OF COMPARTMENTALISATION IN AGGRESSIVE LYMPHOMAS

Author

Anna Mathioudaki, Felix Czernilofsky, Lea Jopp-Saile, Raphael Lutz, Dominik Vonflicht, XI Wang, Marc-A. Baertsch, Harald Vohringer, Tobias Roider, Johannes Mammen, Diana Ordonez-Rueda, Caroline Pabst, Wolfgang Huber, Andreas Trumpp, Carsten Müller-Tidow, Gary P. Nolan, Vladimir Benes, Judith B. Zaugg, Daniel Hübschmann, Simon Haas, and Sascha Dietrich

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

14. Clonal hematopoiesis with DNMT3A and PPM1D mutations impairs regeneration in autologous stem cell transplant recipients

Author

Patrick Stelmach, Sarah Richter, Sandra Sauer, Margarete A. Fabre, Muxin Gu, Christian Rohde, Maike Janssen, Nora Liebers, Rumyana Proynova, Niels Weinhold, Marc S. Raab, Hartmut Goldschmidt, Birgit Besenbeck, Petra Pavel, Sascha Laier, Andreas Trumpp, Sascha Dietrich, George S. Vassiliou, and Carsten Müller-Tidow

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Clonal hematopoiesis (CH) is an age-related condition driven by stem and progenitor cells harboring recurrent mutations linked to myeloid neoplasms. Currently, potential effects on hematopoiesis, stem cell function and regenerative potential under stress conditions are unknown. We performed targeted DNA sequencing of 457 hematopoietic stem cell grafts collected for autologous stem cell transplantation (ASCT) in myeloma patients and correlated our findings with high-dimensional longitudinal clinical and laboratory data (26,510 data points for blood cell counts/serum values in 25 days around transplantation). We detected CHrelated mutations in 152 patients (33.3%). Since many patients (n=54) harbored multiple CH mutations in one or more genes, we applied a non-negative matrix factorization (NMF) clustering algorithm to identify genes that are commonly co-mutated in an unbiased approach. Patients with CH were assigned to one of three clusters (C1-C3) and compared to patients without CH (C0) in a gene specific manner. To study the dynamics of blood cell regeneration following ASCT, we developed a time-dependent linear mixed effect model to validate differences in blood cell count trajectories amongst different clusters. The results demonstrated that C2, composed of patients with DNMT3A and PPM1D single and co-mutated CH, correlated with reduced stem cell yields and delayed platelet count recovery following ASCT. Also, the benefit of maintenance therapy was particularly strong in C2 patients. Taken together, these data indicate an impaired regenerative potential of hematopoietic stem cell grafts harboring CH with DNMT3A and PPM1D mutations.

Published

2023

15. CRISPR-Cas9 mediated generation of a conditional poly(A) binding protein nuclear 1 (Pabpn1) mouse model reveals an essential role for hematopoietic stem cells

Author

Pia Sommerkamp, Alexander C. Sommerkamp, Petra Zeisberger, Paula Leonie Eiben, Andreas Narr, Aylin Korkmaz, Adriana Przybylla, Markus Sohn, Franciscus van der Hoeven, Kai Schönig, and Andreas Trumpp

Subjects

Medicine, Science

Abstract

Abstract Poly(A) binding protein nuclear 1 (PABPN1) is known for its role in poly(A) tail addition and regulation of poly(A) tail length. In addition, it has been shown to be involved in alternative polyadenylation (APA). APA is a process regulating differential selection of polyadenylation sites, thereby influencing protein isoform expression and 3ʹ-UTR make-up. In this study, we generated an inducible Pabpn1 flox/flox mouse model using crRNA-tracrRNA:Cas9 complexes targeting upstream and downstream genomic regions, respectively, in combination with a long single-stranded DNA (ssDNA) template. We performed extensive in vitro testing of various guide RNAs (gRNAs) to optimize recombination efficiency for in vivo application. Pabpn1 flox/flox mice were generated and crossed to MxCre mice for validation experiments, allowing the induction of Cre expression in the bone marrow (BM) by poly(I:C) (pIC) injections. Validation experiments revealed successful deletion of Pabpn1 and absence of PABPN1 protein. Functionally, knockout (KO) of Pabpn1 led to a rapid and robust depletion of hematopoietic stem and progenitor cells (HSPCs) as well as myeloid cells, suggesting an essential role of Pabpn1 in the hematopoietic lineage. Overall, the mouse model allows an inducible in-depth in vivo analysis of the role of PABPN1 and APA regulation in different tissues and disease settings.

Published

2022

16. Leukemic stem cells and therapy resistance in acute myeloid leukemia

Author

Patrick Stelmach and Andreas Trumpp

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

A major obstacle in the treatment of acute myeloid leukemia (AML) is refractory disease or relapse after achieving remission. The latter arises from a few therapy-resistant cells within minimal residual disease (MRD). Resistant cells with long-term self-renewal capacity that drive clonal outgrowth are referred to as leukemic stem cells (LSC). The cancer stem cell concept considers LSC as relapse-initiating cells residing at the top of each genetically defined AML subclone forming epigenetically controlled downstream hierarchies. LSC display significant phenotypic and epigenetic plasticity, particularly in response to therapy stress, which results in various mechanisms mediating treatment resistance. Given the inherent chemotherapy resistance of LSC, targeted strategies must be incorporated into first-line regimens to prevent LSC-mediated AML relapse. The combination of venetoclax and azacitidine is a promising current strategy for the treatment of AML LSC. Nevertheless, the selection of patients who would benefit either from standard chemotherapy or venetoclax + azacitidine treatment in first-line therapy has yet to be established and the mechanisms of resistance still need to be discovered and overcome. Clinical trials are currently underway that investigate LSC susceptibility to first-line therapies. The era of single-cell multi-omics has begun to uncover the complex clonal and cellular architectures and associated biological networks. This should lead to a better understanding of the highly heterogeneous AML at the inter- and intra-patient level and identify resistance mechanisms by longitudinal analysis of patients’ samples. This review discusses LSC biology and associated resistance mechanisms, potential therapeutic LSC vulnerabilities and current clinical trial activities.

Published

2023

17. Targeting the Leukemic stem cell protein machinery by inhibition of mitochondrial pyrimidine synthesis

Author

Elisa Donato and Andreas Trumpp

Subjects

Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Acute Myeloid Leukemia is one of the most aggressive blood cancers with a high frequency of relapse. While standard chemotherapy is able to target rapidly proliferating immature blasts, it fails to eradicate slowly proliferating Leukemic Stem Cells. Therefore, new therapeutic strategies that efficiently target LSCs are urgently needed. Recent studies suggest that LSCs have particular metabolic vulnerabilities, which would open the possibility of a therapeutic window with limited off‐target effects on the normal hematopoietic system. In this issue of EMBO Molecular Medicine, So and colleagues investigate the mechanism of action of AG636, a new potent inhibitor of de novo pyrimidine synthesis, and discovered an unexpected link to AML protein translation essential for LSC function.

Published

2022

18. Axon guidance receptor ROBO3 modulates subtype identity and prognosis via AXL-associated inflammatory network in pancreatic cancer

Author

Niklas Krebs, Lukas Klein, Florian Wegwitz, Elisa Espinet, Hans Carlo Maurer, Mengyu Tu, Frederike Penz, Stefan Küffer, Xingbo Xu, Hanibal Bohnenberger, Silke Cameron, Marius Brunner, Albrecht Neesse, Uday Kishore, Elisabeth Hessmann, Andreas Trumpp, Philipp Ströbel, Rolf A. Brekken, Volker Ellenrieder, and Shiv K. Singh

Subjects

Gastroenterology, Therapeutics, Medicine

Abstract

Metastatic pancreatic cancer (PDAC) has a poor clinical outcome with a 5-year survival rate below 3%. Recent transcriptome profiling of PDAC biopsies has identified 2 clinically distinct subtypes — the “basal-like” (BL) subtype with poor prognosis and therapy resistance compared with the less aggressive and drug-susceptible “classical” (CLA) subtype. However, the mechanistic events and environmental factors that promote the BL subtype identity are not very clear. Using preclinical models, patient-derived xenografts, and FACS-sorted PDAC patient biopsies, we report here that the axon guidance receptor, roundabout guidance receptor 3 (ROBO3), promotes the BL metastatic program via a potentially unique AXL/IL-6/phosphorylated STAT3 (p-STAT3) regulatory axis. RNA-Seq identified a ROBO3-mediated BL-specific gene program, while tyrosine kinase profiling revealed AXL as the key mediator of the p-STAT3 activation. CRISPR/dCas9-based ROBO3 silencing disrupted the AXL/p-STAT3 signaling axis, thereby halting metastasis and enhancing therapy sensitivity. Transcriptome analysis of resected patient tumors revealed that AXLhi neoplastic cells associated with the inflammatory stromal program. Combining AXL inhibitor and chemotherapy substantially restored a CLA phenotypic state and reduced disease aggressiveness. Thus, we conclude that a ROBO3-driven hierarchical network determines the inflammatory and prometastatic programs in a specific PDAC subtype.

Published

2022

19. Comparison of extraction methods for intracellular metabolomics of human tissues

Author

Carolin Andresen, Tobias Boch, Hagen M. Gegner, Nils Mechtel, Andreas Narr, Emrullah Birgin, Erik Rasbach, Nuh Rahbari, Andreas Trumpp, Gernot Poschet, and Daniel Hübschmann

Subjects

metabolism, metabolomics, intra-cellular, extraction protocol, absolute quantification, Biology (General), QH301-705.5

Abstract

Analyses of metabolic compounds inside cells or tissues provide high information content since they represent the endpoint of biological information flow and are a snapshot of the integration of many regulatory processes. However, quantification of the abundance of metabolites requires their careful extraction. We present a comprehensive study comparing ten extraction protocols in four human sample types (liver tissue, bone marrow, HL60, and HEK cells) aiming to detect and quantify up to 630 metabolites of different chemical classes. We show that the extraction efficiency and repeatability are highly variable across protocols, tissues, and chemical classes of metabolites. We used different quality metrics including the limit of detection and variability between replicates as well as the sum of concentrations as a global estimate of analytical repeatability of the extraction. The coverage of extracted metabolites depends on the used solvents, which has implications for the design of measurements of different sample types and metabolic compounds of interest. The benchmark dataset can be explored in an easy-to-use, interactive, and flexible online resource (R/shiny app MetaboExtract: http://www.metaboextract.shiny.dkfz.de) for context-specific selection of the optimal extraction method. Furthermore, data processing and conversion functionality underlying the shiny app are accessible as an R package: https://cran.r-project.org/package=MetAlyzer.

Published

2022

20. Identification of leukemic and pre-leukemic stem cells by clonal tracking from single-cell transcriptomics

Author

Lars Velten, Benjamin A. Story, Pablo Hernández-Malmierca, Simon Raffel, Daniel R. Leonce, Jennifer Milbank, Malte Paulsen, Aykut Demir, Chelsea Szu-Tu, Robert Frömel, Christoph Lutz, Daniel Nowak, Johann-Christoph Jann, Caroline Pabst, Tobias Boch, Wolf-Karsten Hofmann, Carsten Müller-Tidow, Andreas Trumpp, Simon Haas, and Lars M. Steinmetz

Subjects

Science

Abstract

Leukaemic stem cells drive acute myeloid leukaemia (AML) progression and relapse but they are incompletely characterized. Here, the authors combine single-cell transcriptomics and clonal tracking using nuclear and mitochondrial somatic variants to distinguish healthy, pre-leukaemic and leukaemic stem cells in AML.

Published

2021

21. Niche derived netrin-1 regulates hematopoietic stem cell dormancy via its receptor neogenin-1

Author

Simon Renders, Arthur Flohr Svendsen, Jasper Panten, Nicolas Rama, Maria Maryanovich, Pia Sommerkamp, Luisa Ladel, Anna Rita Redavid, Benjamin Gibert, Seka Lazare, Benjamin Ducarouge, Katharina Schönberger, Andreas Narr, Manon Tourbez, Bertien Dethmers-Ausema, Erik Zwart, Agnes Hotz-Wagenblatt, Dachuan Zhang, Claudia Korn, Petra Zeisberger, Adriana Przybylla, Markus Sohn, Simon Mendez-Ferrer, Mathias Heikenwälder, Maik Brune, Daniel Klimmeck, Leonid Bystrykh, Paul S. Frenette, Patrick Mehlen, Gerald de Haan, Nina Cabezas-Wallscheid, and Andreas Trumpp

Subjects

Science

Abstract

Haematopoietic stem cells (HSCs) are characterized by their self-renewal potential and associated dormancy. Here the authors show that niche produced netrin-1 preserves HSC quiescence and self-renewal via neogenin-1, and that decline of netrin-1 production during ageing leads to decreased Neo1 mediated HSC self-renewal.

Published

2021

22. Innovations, challenges, and minimal information for standardization of humanized mice

Author

Renata Stripecke, Christian Münz, Jan Jacob Schuringa, Karl‐Dimiter Bissig, Brian Soper, Terrence Meeham, Li‐Chin Yao, James P Di Santo, Michael Brehm, Estefania Rodriguez, Anja Kathrin Wege, Dominique Bonnet, Silvia Guionaud, Kristina E Howard, Scott Kitchen, Florian Klein, Kourosh Saeb‐Parsy, Johannes Sam, Amar Deep Sharma, Andreas Trumpp, Livio Trusolino, Carol Bult, and Leonard Shultz

Subjects

humanized mice, infections, PDX, immuno‐oncology, regenerative medicine, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Mice xenotransplanted with human cells and/or expressing human gene products (also known as “humanized mice”) recapitulate the human evolutionary specialization and diversity of genotypic and phenotypic traits. These models can provide a relevant in vivo context for understanding of human‐specific physiology and pathologies. Humanized mice have advanced toward mainstream preclinical models and are now at the forefront of biomedical research. Here, we considered innovations and challenges regarding the reconstitution of human immunity and human tissues, modeling of human infections and cancer, and the use of humanized mice for testing drugs or regenerative therapy products. As the number of publications exploring different facets of humanized mouse models has steadily increased in past years, it is becoming evident that standardized reporting is needed in the field. Therefore, an international community‐driven resource called “Minimal Information for Standardization of Humanized Mice” (MISHUM) has been created for the purpose of enhancing rigor and reproducibility of studies in the field. Within MISHUM, we propose comprehensive guidelines for reporting critical information generated using humanized mice.

Published

2020

23. Metastasis-initiating cells induce and exploit a fibroblast niche to fuel malignant colonization of the lungs

Author

Maren Pein, Jacob Insua-Rodríguez, Tsunaki Hongu, Angela Riedel, Jasmin Meier, Lena Wiedmann, Kristin Decker, Marieke A. G. Essers, Hans-Peter Sinn, Saskia Spaich, Marc Sütterlin, Andreas Schneeweiss, Andreas Trumpp, and Thordur Oskarsson

Subjects

Science

Abstract

How cancer cells engage the microenvironment to establish metastasis is poorly understood. Here, the authors show that CXCR3-expressing breast cancer cells secrete IL-1 to induce a paracrine crosstalk with fibroblasts in the lung, which involves CXCL9/10 production and results in colonization of the lung.

Published

2020

24. Versatile workflow for cell type–resolved transcriptional and epigenetic profiles from cryopreserved human lung

Author

Maria Llamazares-Prada, Elisa Espinet, Vedrana Mijošek, Uwe Schwartz, Pavlo Lutsik, Raluca Tamas, Mandy Richter, Annika Behrendt, Stephanie T. Pohl, Naja P. Benz, Thomas Muley, Arne Warth, Claus Peter Heußel, Hauke Winter, Jonathan J. M. Landry, Felix J.F. Herth, Tinne C.J. Mertens, Harry Karmouty-Quintana, Ina Koch, Vladimir Benes, Jan O. Korbel, Sebastian M. Waszak, Andreas Trumpp, David M. Wyatt, Heiko F. Stahl, Christoph Plass, and Renata Z. Jurkowska

Subjects

Pulmonology, Medicine

Abstract

Complexity of lung microenvironment and changes in cellular composition during disease make it exceptionally hard to understand molecular mechanisms driving development of chronic lung diseases. Although recent advances in cell type–resolved approaches hold great promise for studying complex diseases, their implementation relies on local access to fresh tissue, as traditional tissue storage methods do not allow viable cell isolation. To overcome these hurdles, we developed a versatile workflow that allows storage of lung tissue with high viability, permits thorough sample quality check before cell isolation, and befits sequencing-based profiling. We demonstrate that cryopreservation enables isolation of multiple cell types from both healthy and diseased lungs. Basal cells from cryopreserved airways retain their differentiation ability, indicating that cellular identity is not altered by cryopreservation. Importantly, using RNA sequencing and EPIC Array, we show that gene expression and DNA methylation signatures are preserved upon cryopreservation, emphasizing the suitability of our workflow for omics profiling of lung cells. Moreover, we obtained high-quality single-cell RNA-sequencing data of cells from cryopreserved human lungs, demonstrating that cryopreservation empowers single-cell approaches. Overall, thanks to its simplicity, our workflow is well suited for prospective tissue collection by academic collaborators and biobanks, opening worldwide access to viable human tissue.

Published

2021

25. Single cell polarity in liquid phase facilitates tumour metastasis

Author

Anna Lorentzen, Paul F. Becker, Jan Kosla, Massimo Saini, Kathrin Weidele, Paolo Ronchi, Corinna Klein, Monika J. Wolf, Felix Geist, Bastian Seubert, Marc Ringelhan, Daniela Mihic-Probst, Knud Esser, Marko Roblek, Felix Kuehne, Gaia Bianco, Tracy O’Connor, Quentin Müller, Kathleen Schuck, Sebastian Lange, Daniel Hartmann, Saskia Spaich, Olaf Groß, Jochen Utikal, Sebastian Haferkamp, Martin R. Sprick, Amruta Damle-Vartak, Alexander Hapfelmeier, Norbert Hüser, Ulrike Protzer, Andreas Trumpp, Dieter Saur, Nachiket Vartak, Christoph A. Klein, Bernhard Polzer, Lubor Borsig, and Mathias Heikenwalder

Subjects

Science

Abstract

Polarisation of metastasising cancer cells in circulation has not been investigated before. Here the authors identify single cell polarity as a distinct polarisation state of single cells in liquid phase, and show that perturbing single cell polarity affects attachment, adhesion, transmigration and metastasis in vitro and in vivo.

Published

2018

26. Screening drug effects in patient‐derived cancer cells links organoid responses to genome alterations

Author

Julia Jabs, Franziska M Zickgraf, Jeongbin Park, Steve Wagner, Xiaoqi Jiang, Katharina Jechow, Kortine Kleinheinz, Umut H Toprak, Marc A Schneider, Michael Meister, Saskia Spaich, Marc Sütterlin, Matthias Schlesner, Andreas Trumpp, Martin Sprick, Roland Eils, and Christian Conrad

Subjects

cancer organoids, confocal microscopy, high‐throughput screening, personalized drug screen, pharmacogenomics, Biology (General), QH301-705.5, Medicine (General), R5-920

Abstract

Abstract Cancer drug screening in patient‐derived cells holds great promise for personalized oncology and drug discovery but lacks standardization. Whether cells are cultured as conventional monolayer or advanced, matrix‐dependent organoid cultures influences drug effects and thereby drug selection and clinical success. To precisely compare drug profiles in differently cultured primary cells, we developed DeathPro, an automated microscopy‐based assay to resolve drug‐induced cell death and proliferation inhibition. Using DeathPro, we screened cells from ovarian cancer patients in monolayer or organoid culture with clinically relevant drugs. Drug‐induced growth arrest and efficacy of cytostatic drugs differed between the two culture systems. Interestingly, drug effects in organoids were more diverse and had lower therapeutic potential. Genomic analysis revealed novel links between drug sensitivity and DNA repair deficiency in organoids that were undetectable in monolayers. Thus, our results highlight the dependency of cytostatic drugs and pharmacogenomic associations on culture systems, and guide culture selection for drug tests.

Published

2017

27. Survival of pancreatic cancer cells lacking KRAS function

Author

Mandar Deepak Muzumdar, Pan-Yu Chen, Kimberly Judith Dorans, Katherine Minjee Chung, Arjun Bhutkar, Erin Hong, Elisa M. Noll, Martin R. Sprick, Andreas Trumpp, and Tyler Jacks

Subjects

Science

Abstract

Pancreatic cancer cells may develop resistance to KRAS inhibitors due to activation of compensatory pathways. In this study, the authors demonstrate that KRAS is dispensable in a subset of pancreatic cancer and that PI3K signalling may have an important role in mediating tumor growth following KRAS inhibition.

Published

2017

28. Systemic Virus Infections Differentially Modulate Cell Cycle State and Functionality of Long-Term Hematopoietic Stem Cells In Vivo

Author

Christoph Hirche, Theresa Frenz, Simon F. Haas, Marius Döring, Katharina Borst, Pia-K. Tegtmeyer, Ilija Brizic, Stefan Jordan, Kirsten Keyser, Chintan Chhatbar, Eline Pronk, Shuiping Lin, Martin Messerle, Stipan Jonjic, Christine S. Falk, Andreas Trumpp, Marieke A.G. Essers, and Ulrich Kalinke

Subjects

hematopoietic stem cells, quiescence, cell cycle, stem cell activation, systemic inflammation, inflammatory cytokines, virus infections, stem cell function, bone marrow transplantation, transplant complications, Biology (General), QH301-705.5

Abstract

Quiescent long-term hematopoietic stem cells (LT-HSCs) are efficiently activated by type I interferon (IFN-I). However, this effect remains poorly investigated in the context of IFN-I-inducing virus infections. Here we report that both vesicular stomatitis virus (VSV) and murine cytomegalovirus (MCMV) infection induce LT-HSC activation that substantially differs from the effects triggered upon injection of synthetic IFN-I-inducing agents. In both infections, inflammatory responses had to exceed local thresholds within the bone marrow to confer LT-HSC cell cycle entry, and IFN-I receptor triggering was not critical for this activation. After resolution of acute MCMV infection, LT-HSCs returned to phenotypic quiescence. However, non-acute MCMV infection induced a sustained inflammatory milieu within the bone marrow that was associated with long-lasting impairment of LT-HSC function. In conclusion, our results show that systemic virus infections fundamentally affect LT-HSCs and that also non-acute inflammatory stimuli in bone marrow donors can affect the reconstitution potential of bone marrow transplants.

Published

2017

29. Defined Conditions for the Isolation and Expansion of Basal Prostate Progenitor Cells of Mouse and Human Origin

Author

Thomas Höfner, Christian Eisen, Corinna Klein, Teresa Rigo-Watermeier, Stephan M. Goeppinger, Anna Jauch, Brigitte Schoell, Vanessa Vogel, Elisa Noll, Wilko Weichert, Irène Baccelli, Anja Schillert, Steve Wagner, Sascha Pahernik, Martin R. Sprick, and Andreas Trumpp

Subjects

Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Methods to isolate and culture primary prostate epithelial stem/progenitor cells (PESCs) have proven difficult and ineffective. Here, we present a method to grow and expand both murine and human basal PESCs long term in serum- and feeder-free conditions. The method enriches for adherent mouse basal PESCs with a Lin−SCA-1+CD49f+TROP2high phenotype. Progesterone and sodium selenite are additionally required for the growth of human Lin−CD49f+TROP2high PESCs. The gene-expression profiles of expanded basal PESCs show similarities to ESCs, and NF-kB function is critical for epithelial differentiation of sphere-cultured PESCs. When transplanted in combination with urogenital sinus mesenchyme, expanded mouse and human PESCs generate ectopic prostatic tubules, demonstrating their stem cell activity in vivo. This novel method will facilitate the molecular, genomic, and functional characterization of normal and pathologic prostate glands of mouse and human origin.

Published

2015

30. Reduced hematopoietic stem cell frequency predicts outcome in acute myeloid leukemia

Author

Wenwen Wang, Thomas Stiehl, Simon Raffel, Van T. Hoang, Isabel Hoffmann, Laura Poisa-Beiro, Borhan R. Saeed, Rachel Blume, Linda Manta, Volker Eckstein, Tilmann Bochtler, Patrick Wuchter, Marieke Essers, Anna Jauch, Andreas Trumpp, Anna Marciniak-Czochra, Anthony D. Ho, and Christoph Lutz

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

In patients with acute myeloid leukemia and low percentages of aldehyde-dehydrogenase-positive cells, non-leukemic hematopoietic stem cells can be separated from leukemic cells. By relating hematopoietic stem cell frequencies to outcome we detected poor overall- and disease-free survival of patients with low hematopoietic stem cell frequencies. Serial analysis of matched diagnostic and follow-up samples further demonstrated that hematopoietic stem cells increased after chemotherapy in patients who achieved durable remissions. However, in patients who eventually relapsed, hematopoietic stem cell numbers decreased dramatically at the time of molecular relapse demonstrating that hematopoietic stem cell levels represent an indirect marker of minimal residual disease, which heralds leukemic relapse. Upon transplantation in immune-deficient mice cases with low percentages of hematopoietic stem cells of our cohort gave rise to leukemic or no engraftment, whereas cases with normal hematopoietic stem cell levels mostly resulted in multi-lineage engraftment. Based on our experimental data, we propose that leukemic stem cells have increased niche affinity in cases with low percentages of hematopoietic stem cells. To validate this hypothesis, we developed new mathematical models describing the dynamics of healthy and leukemic cells under different regulatory scenarios. These models suggest that the mechanism leading to decreases in hematopoietic stem cell frequencies before leukemic relapse must be based on expansion of leukemic stem cells with high niche affinity and the ability to dislodge hematopoietic stem cells. Thus, our data suggest that decreasing numbers of hematopoietic stem cells indicate leukemic stem cell persistence and the emergence of leukemic relapse.

Published

2017

31. Transcriptome-wide Profiling and Posttranscriptional Analysis of Hematopoietic Stem/Progenitor Cell Differentiation toward Myeloid Commitment

Author

Daniel Klimmeck, Nina Cabezas-Wallscheid, Alejandro Reyes, Lisa von Paleske, Simon Renders, Jenny Hansson, Jeroen Krijgsveld, Wolfgang Huber, and Andreas Trumpp

Subjects

Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Hematopoietic stem cells possess lifelong self-renewal activity and generate multipotent progenitors that differentiate into lineage-committed and subsequently mature cells. We present a comparative transcriptome analysis of ex vivo isolated mouse multipotent hematopoietic stem/progenitor cells (LinnegSCA-1+c-KIT+) and myeloid committed precursors (LinnegSCA-1negc-KIT+). Our data display dynamic transcriptional networks and identify a stem/progenitor gene expression pattern that is characterized by cell adhesion and immune response components including kallikrein-related proteases. We identify 498 expressed lncRNAs, which are potential regulators of multipotency or lineage commitment. By integrating these transcriptome with our recently reported proteome data, we found evidence for posttranscriptional regulation of processes including metabolism and response to oxidative stress. Finally, our study identifies a high number of genes with transcript isoform regulation upon lineage commitment. This in-depth molecular analysis outlines the enormous complexity of expressed coding and noncoding RNAs and posttranscriptional regulation during the early differentiation steps of hematopoietic stem cells toward the myeloid lineage.

Published

2014

32. Instruction of haematopoietic lineage choices, evolution of transcriptional landscapes and cancer stem cell hierarchies derived from an AML1‐ETO mouse model

Author

Nina Cabezas‐Wallscheid, Victoria Eichwald, Jos de Graaf, Martin Löwer, Hans‐Anton Lehr, Andreas Kreft, Leonid Eshkind, Andreas Hildebrandt, Yasmin Abassi, Rosario Heck, Anna Katharina Dehof, Svetlana Ohngemach, Rolf Sprengel, Simone Wörtge, Steffen Schmitt, Johannes Lotz, Claudius Meyer, Thomas Kindler, Dong‐Er Zhang, Bernd Kaina, John C. Castle, Andreas Trumpp, Ugur Sahin, and Ernesto Bockamp

Subjects

cancer stem cells, core binding factor acute myeloid leukaemia, preclinical mouse model, therapy target validation, whole transcriptome sequencing, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract The t(8;21) chromosomal translocation activates aberrant expression of the AML1‐ETO (AE) fusion protein and is commonly associated with core binding factor acute myeloid leukaemia (CBF AML). Combining a conditional mouse model that closely resembles the slow evolution and the mosaic AE expression pattern of human t(8;21) CBF AML with global transcriptome sequencing, we find that disease progression was characterized by two principal pathogenic mechanisms. Initially, AE expression modified the lineage potential of haematopoietic stem cells (HSCs), resulting in the selective expansion of the myeloid compartment at the expense of normal erythro‐ and lymphopoiesis. This lineage skewing was followed by a second substantial rewiring of transcriptional networks occurring in the trajectory to manifest leukaemia. We also find that both HSC and lineage‐restricted granulocyte macrophage progenitors (GMPs) acquired leukaemic stem cell (LSC) potential being capable of initiating and maintaining the disease. Finally, our data demonstrate that long‐term expression of AE induces an indolent myeloproliferative disease (MPD)‐like myeloid leukaemia phenotype with complete penetrance and that acute inactivation of AE function is a potential novel therapeutic option.

Published

2013

33. An advanced preclinical mouse model for acute myeloid leukemia using patients' cells of various genetic subgroups and in vivo bioluminescence imaging.

Author

Binje Vick, Maja Rothenberg, Nadine Sandhöfer, Michela Carlet, Cornelia Finkenzeller, Christina Krupka, Michaela Grunert, Andreas Trumpp, Selim Corbacioglu, Martin Ebinger, Maya C André, Wolfgang Hiddemann, Stephanie Schneider, Marion Subklewe, Klaus H Metzeler, Karsten Spiekermann, and Irmela Jeremias

Subjects

Medicine, Science

Abstract

Acute myeloid leukemia (AML) is a clinically and molecularly heterogeneous disease with poor outcome. Adequate model systems are required for preclinical studies to improve understanding of AML biology and to develop novel, rational treatment approaches. Xenografts in immunodeficient mice allow performing functional studies on patient-derived AML cells. We have established an improved model system that integrates serial retransplantation of patient-derived xenograft (PDX) cells in mice, genetic manipulation by lentiviral transduction, and essential quality controls by immunophenotyping and targeted resequencing of driver genes. 17/29 samples showed primary engraftment, 10/17 samples could be retransplanted and some of them allowed virtually indefinite serial transplantation. 5/6 samples were successfully transduced using lentiviruses. Neither serial transplantation nor genetic engineering markedly altered sample characteristics analyzed. Transgene expression was stable in PDX AML cells. Example given, recombinant luciferase enabled bioluminescence in vivo imaging and highly sensitive and reliable disease monitoring; imaging visualized minimal disease at 1 PDX cell in 10000 mouse bone marrow cells and facilitated quantifying leukemia initiating cells. We conclude that serial expansion, genetic engineering and imaging represent valuable tools to improve the individualized xenograft mouse model of AML. Prospectively, these advancements enable repetitive, clinically relevant studies on AML biology and preclinical treatment trials on genetically defined and heterogeneous subgroups.

Published

2015

34. Estimating dormant and active hematopoietic stem cell kinetics through extensive modeling of bromodeoxyuridine label-retaining cell dynamics.

Author

Richard C van der Wath, Anne Wilson, Elisa Laurenti, Andreas Trumpp, and Pietro Liò

Subjects

Medicine, Science

Abstract

Bone marrow hematopoietic stem cells (HSCs) are responsible for both lifelong daily maintenance of all blood cells and for repair after cell loss. Until recently the cellular mechanisms by which HSCs accomplish these two very different tasks remained an open question. Biological evidence has now been found for the existence of two related mouse HSC populations. First, a dormant HSC (d-HSC) population which harbors the highest self-renewal potential of all blood cells but is only induced into active self-renewal in response to hematopoietic stress. And second, an active HSC (a-HSC) subset that by and large produces the progenitors and mature cells required for maintenance of day-to-day hematopoiesis. Here we present computational analyses further supporting the d-HSC concept through extensive modeling of experimental DNA label-retaining cell (LRC) data. Our conclusion that the presence of a slowly dividing subpopulation of HSCs is the most likely explanation (amongst the various possible causes including stochastic cellular variation) of the observed long term Bromodeoxyuridine (BrdU) retention, is confirmed by the deterministic and stochastic models presented here. Moreover, modeling both HSC BrdU uptake and dilution in three stages and careful treatment of the BrdU detection sensitivity permitted improved estimates of HSC turnover rates. This analysis predicts that d-HSCs cycle about once every 149-193 days and a-HSCs about once every 28-36 days. We further predict that, using LRC assays, a 75%-92.5% purification of d-HSCs can be achieved after 59-130 days of chase. Interestingly, the d-HSC proportion is now estimated to be around 30-45% of total HSCs - more than twice that of our previous estimate.

Published

2009

35. Combinatorial BCL2 Family Expression in Acute Myeloid Leukemia Stem Cells Predicts Clinical Response to Azacitidine/Venetoclax

Author

Alexander Waclawiczek, Aino-Maija Leppä, Simon Renders, Karolin Stumpf, Cecilia Reyneri, Barbara Betz, Maike Janssen, Rabia Shahswar, Elisa Donato, Darja Karpova, Vera Thiel, Julia M. Unglaub, Susanna Grabowski, Stefanie Gryzik, Lisa Vierbaum, Richard F. Schlenk, Christoph Röllig, Michael Hundemer, Caroline Pabst, Michael Heuser, Simon Raffel, Carsten Müller-Tidow, Tim Sauer, and Andreas Trumpp

Subjects

Oncology

Abstract

The BCL2 inhibitor venetoclax (VEN) in combination with azacitidine (5-AZA) is currently transforming acute myeloid leukemia (AML) therapy. However, there is a lack of clinically relevant biomarkers that predict response to 5-AZA/VEN. Here, we integrated transcriptomic, proteomic, functional, and clinical data to identify predictors of 5-AZA/VEN response. Although cultured monocytic AML cells displayed upfront resistance, monocytic differentiation was not clinically predictive in our patient cohort. We identified leukemic stem cells (LSC) as primary targets of 5-AZA/VEN whose elimination determined the therapy outcome. LSCs of 5-AZA/VEN-refractory patients displayed perturbed apoptotic dependencies. We developed and validated a flow cytometry-based “Mediators of apoptosis combinatorial score” (MAC-Score) linking the ratio of protein expression of BCL2, BCL-xL, and MCL1 in LSCs. MAC scoring predicts initial response with a positive predictive value of more than 97% associated with increased event-free survival. In summary, combinatorial levels of BCL2 family members in AML-LSCs are a key denominator of response, and MAC scoring reliably predicts patient response to 5-AZA/VEN. Significance: Venetoclax/azacitidine treatment has become an alternative to standard chemotherapy for patients with AML. However, prediction of response to treatment is hampered by the lack of clinically useful biomarkers. Here, we present easy-to-implement MAC scoring in LSCs as a novel strategy to predict treatment response and facilitate clinical decision-making.

Published

2023

36. Detection and Isolation of Circulating Tumor Cells from Breast Cancer Patients Using CUB Domain-Containing Protein 1

Author

Kai Bartkowiak, Parinaz Mossahebi Mohammadi, Sebastian Gärtner, Marcel Kwiatkowski, Antje Andreas, Maria Geffken, Sven Peine, Karl Verpoort, Ursula Scholz, Thomas M. Deutsch, Laura L. Michel, Andreas Schneeweiss, Verena Thewes, Andreas Trumpp, Volkmar Müller, Sabine Riethdorf, Hartmut Schlüter, and Klaus Pantel

Subjects

General Chemistry, Biochemistry

Published

2023

37. Protein tyrosine kinase 2b inhibition reverts niche-associated resistance to tyrosine kinase inhibitors in AML

Author

Catana Allert, Alexander Waclawiczek, Sarah Miriam Naomi Zimmermann, Stefanie Göllner, Daniel Heid, Maike Janssen, Simon Renders, Christian Rohde, Marcus Bauer, Margarita Bruckmann, Rafael Zinz, Cornelius Pauli, Birgit Besenbeck, Claudia Wickenhauser, Andreas Trumpp, Jeroen Krijgsveld, Carsten Müller-Tidow, and Maximilian Felix Blank

Subjects

Sulfonamides, Cancer Research, Proteome, Daunorubicin, Hematology, Protein-Tyrosine Kinases, Leukemia, Myeloid, Acute, Mice, Focal Adhesion Kinase 2, fms-Like Tyrosine Kinase 3, Oncology, Drug Resistance, Neoplasm, Cell Line, Tumor, Pyrazines, Benzamides, Mutation, Animals, Humans, Protein Kinase Inhibitors

Abstract

FLT3 tyrosine kinase inhibitor (TKI) therapy evolved into a standard therapy in FLT3-mutated AML. TKI resistance, however, develops frequently with poor outcomes. We analyzed acquired TKI resistance in AML cell lines by multilayered proteome analyses. Leupaxin (LPXN), a regulator of cell migration and adhesion, was induced during early resistance development, alongside the tyrosine kinase PTK2B which phosphorylated LPXN. Resistant cells differed in cell adhesion and migration, indicating altered niche interactions. PTK2B and LPXN were highly expressed in leukemic stem cells in FLT3-ITD patients. PTK2B/FAK inhibition abrogated resistance-associated phenotypes, such as enhanced cell migration. Altered pathways in resistant cells, assessed by nascent proteomics, were largely reverted upon PTK2B/FAK inhibition. PTK2B/FAK inhibitors PF-431396 and defactinib synergized with different TKIs or daunorubicin in FLT3-mutated AML. Midostaurin-resistant and AML cells co-cultured with mesenchymal stroma cells responded particularly well to PTK2B/FAK inhibitor addition. Xenograft mouse models showed significant longer time to leukemia symptom-related endpoint upon gilteritinib/defactinib combination treatment in comparison to treatment with either drug alone. Our data suggest that the leupaxin-PTK2B axis plays an important role in acquired TKI resistance in AML. PTK2B/FAK inhibitors act synergistically with currently used therapeutics and may overcome emerging TKI resistance in FLT3-mutated AML at an early timepoint.

Published

2022

38. Therapy resistance mechanisms in hematological malignancies

Author

Wolf-Karsten, Hofmann, Andreas, Trumpp, and Carsten, Müller-Tidow

Subjects

Cancer Research, Oncology

Abstract

Hematologic malignancies are model diseases for understanding neoplastic transformation and serve as prototypes for developing effective therapies. Indeed, the concept of systemic cancer therapy originated in hematologic malignancies and has guided the development of chemotherapy, cellular therapies, immunotherapy and modern precision oncology. Despite significant advances in the treatment of leukemias, lymphomas and multiple myelomas, treatment resistance associated with molecular and clinical relapse remains very common. Therapy of relapsed and refractory disease remains extremely difficult, and failure of disease control at this stage remains the leading cause of mortality in patients with hematologic malignancies. In recent years, many efforts have been made to identify the genetic and epigenetic mechanisms that drive the development of hematologic malignancies to the stage of full-blown disease requiring clinical intervention. In contrast, the mechanisms responsible for treatment resistance in hematologic malignancies remain poorly understood. For example, the molecular characteristics of therapy-resistant persisting cells in minimal residual disease (MRD) remain rather elusive. In this mini-review we want to discuss that cellular heterogeneity and plasticity, together with adaptive genetic and epigenetic processes, lead to reduced sensitivity to various treatment regimens such as chemotherapy and pathway inhibitors such as tyrosine kinase inhibitors. However, resistance mechanisms may be conserved across biologically distinct cancer entities. Recent technological advances have made it possible to explore the underlying mechanisms of therapy resistance with unprecedented resolution and depth. These include novel multi-omics technologies with single cell resolution combined with advanced biocomputational approaches, along with artificial intelligence (AI) and sophisticated disease models for functional validation.

Published

2022

39. Recent advances in 'sickle and niche' research - Tribute to Dr. Paul S Frenette

Author

Lidiane S. Torres, Noboru Asada, Mitchell J. Weiss, Andreas Trumpp, Toshio Suda, David T. Scadden, and Keisuke Ito

Subjects

Bone Marrow, Genetics, Humans, Anemia, Sickle Cell, Cell Biology, Stem Cell Niche, Biochemistry, Hematopoiesis, Retrospective Studies, Developmental Biology

Abstract

In this retrospective, we review the two research topics that formed the basis of the outstanding career of Dr. Paul S. Frenette. In the first part, we focus on sickle cell disease (SCD). The defining feature of SCD is polymerization of the deoxygenated mutant hemoglobin, which leads to a vicious cycle of hemolysis and vaso-occlusion. We survey important discoveries in SCD pathophysiology that have led to recent advances in treatment of SCD. The second part focuses on the hematopoietic stem cell (HSC) niche, the complex microenvironment within the bone marrow that controls HSC function and homeostasis. We detail the cells that constitute this niche, and the factors that these cells use to exert control over hematopoiesis. Here, we trace the scientific paths of Dr. Frenette, highlight key aspects of his research, and identify his most important scientific contributions in both fields.

Published

2022

40. Supplementary Figure 4 from Combinatorial BCL2 Family Expression in Acute Myeloid Leukemia Stem Cells Predicts Clinical Response to Azacitidine/Venetoclax

Author

Andreas Trumpp, Tim Sauer, Carsten Müller-Tidow, Simon Raffel, Michael Heuser, Caroline Pabst, Michael Hundemer, Christoph Röllig, Richard F. Schlenk, Lisa Vierbaum, Stefanie Gryzik, Susanna Grabowski, Julia M. Unglaub, Vera Thiel, Darja Karpova, Elisa Donato, Rabia Shahswar, Maike Janssen, Barbara Betz, Cecilia Reyneri, Karolin Stumpf, Simon Renders, Aino-Maija Leppä, and Alexander Waclawiczek

Abstract

Subpopulation specific Bcl-2 family levels and response to HMA/Venetoclax

Published

2023

41. Supplementary Figure 3 from Combinatorial BCL2 Family Expression in Acute Myeloid Leukemia Stem Cells Predicts Clinical Response to Azacitidine/Venetoclax

Author

Andreas Trumpp, Tim Sauer, Carsten Müller-Tidow, Simon Raffel, Michael Heuser, Caroline Pabst, Michael Hundemer, Christoph Röllig, Richard F. Schlenk, Lisa Vierbaum, Stefanie Gryzik, Susanna Grabowski, Julia M. Unglaub, Vera Thiel, Darja Karpova, Elisa Donato, Rabia Shahswar, Maike Janssen, Barbara Betz, Cecilia Reyneri, Karolin Stumpf, Simon Renders, Aino-Maija Leppä, and Alexander Waclawiczek

Abstract

Bcl-2 family gene expression in LSCs predicts in vitro response to HMA/VEN

Published

2023

42. Supplementary Figure 2 from Combinatorial BCL2 Family Expression in Acute Myeloid Leukemia Stem Cells Predicts Clinical Response to Azacitidine/Venetoclax

Author

Andreas Trumpp, Tim Sauer, Carsten Müller-Tidow, Simon Raffel, Michael Heuser, Caroline Pabst, Michael Hundemer, Christoph Röllig, Richard F. Schlenk, Lisa Vierbaum, Stefanie Gryzik, Susanna Grabowski, Julia M. Unglaub, Vera Thiel, Darja Karpova, Elisa Donato, Rabia Shahswar, Maike Janssen, Barbara Betz, Cecilia Reyneri, Karolin Stumpf, Simon Renders, Aino-Maija Leppä, and Alexander Waclawiczek

Abstract

Transcriptomic and functional characterization of LSC-like cells

Published

2023

43. Supplementary Figure 1 from Combinatorial BCL2 Family Expression in Acute Myeloid Leukemia Stem Cells Predicts Clinical Response to Azacitidine/Venetoclax

Author

Andreas Trumpp, Tim Sauer, Carsten Müller-Tidow, Simon Raffel, Michael Heuser, Caroline Pabst, Michael Hundemer, Christoph Röllig, Richard F. Schlenk, Lisa Vierbaum, Stefanie Gryzik, Susanna Grabowski, Julia M. Unglaub, Vera Thiel, Darja Karpova, Elisa Donato, Rabia Shahswar, Maike Janssen, Barbara Betz, Cecilia Reyneri, Karolin Stumpf, Simon Renders, Aino-Maija Leppä, and Alexander Waclawiczek

Abstract

Cell line sensitivity and additional patient data

Published

2023

44. SupplementaryFigure 6 from Combinatorial BCL2 Family Expression in Acute Myeloid Leukemia Stem Cells Predicts Clinical Response to Azacitidine/Venetoclax

Author

Andreas Trumpp, Tim Sauer, Carsten Müller-Tidow, Simon Raffel, Michael Heuser, Caroline Pabst, Michael Hundemer, Christoph Röllig, Richard F. Schlenk, Lisa Vierbaum, Stefanie Gryzik, Susanna Grabowski, Julia M. Unglaub, Vera Thiel, Darja Karpova, Elisa Donato, Rabia Shahswar, Maike Janssen, Barbara Betz, Cecilia Reyneri, Karolin Stumpf, Simon Renders, Aino-Maija Leppä, and Alexander Waclawiczek

Abstract

Comparison of MAC-Score and BH-3 profiling based response prediction

Published

2023

45. Supplementary Figure 7 from Combinatorial BCL2 Family Expression in Acute Myeloid Leukemia Stem Cells Predicts Clinical Response to Azacitidine/Venetoclax

Author

Andreas Trumpp, Tim Sauer, Carsten Müller-Tidow, Simon Raffel, Michael Heuser, Caroline Pabst, Michael Hundemer, Christoph Röllig, Richard F. Schlenk, Lisa Vierbaum, Stefanie Gryzik, Susanna Grabowski, Julia M. Unglaub, Vera Thiel, Darja Karpova, Elisa Donato, Rabia Shahswar, Maike Janssen, Barbara Betz, Cecilia Reyneri, Karolin Stumpf, Simon Renders, Aino-Maija Leppä, and Alexander Waclawiczek

Abstract

MAC-Score predict response within mutational subgroups

Published

2023

46. Data from Combinatorial BCL2 Family Expression in Acute Myeloid Leukemia Stem Cells Predicts Clinical Response to Azacitidine/Venetoclax

Author

Andreas Trumpp, Tim Sauer, Carsten Müller-Tidow, Simon Raffel, Michael Heuser, Caroline Pabst, Michael Hundemer, Christoph Röllig, Richard F. Schlenk, Lisa Vierbaum, Stefanie Gryzik, Susanna Grabowski, Julia M. Unglaub, Vera Thiel, Darja Karpova, Elisa Donato, Rabia Shahswar, Maike Janssen, Barbara Betz, Cecilia Reyneri, Karolin Stumpf, Simon Renders, Aino-Maija Leppä, and Alexander Waclawiczek

Abstract

The BCL2 inhibitor venetoclax (VEN) in combination with azacitidine (5-AZA) is currently transforming acute myeloid leukemia (AML) therapy. However, there is a lack of clinically relevant biomarkers that predict response to 5-AZA/VEN. Here, we integrated transcriptomic, proteomic, functional, and clinical data to identify predictors of 5-AZA/VEN response. Although cultured monocytic AML cells displayed upfront resistance, monocytic differentiation was not clinically predictive in our patient cohort. We identified leukemic stem cells (LSC) as primary targets of 5-AZA/VEN whose elimination determined the therapy outcome. LSCs of 5-AZA/VEN-refractory patients displayed perturbed apoptotic dependencies. We developed and validated a flow cytometry-based “Mediators of apoptosis combinatorial score” (MAC-Score) linking the ratio of protein expression of BCL2, BCL-xL, and MCL1 in LSCs. MAC scoring predicts initial response with a positive predictive value of more than 97% associated with increased event-free survival. In summary, combinatorial levels of BCL2 family members in AML-LSCs are a key denominator of response, and MAC scoring reliably predicts patient response to 5-AZA/VEN.Significance:Venetoclax/azacitidine treatment has become an alternative to standard chemotherapy for patients with AML. However, prediction of response to treatment is hampered by the lack of clinically useful biomarkers. Here, we present easy-to-implement MAC scoring in LSCs as a novel strategy to predict treatment response and facilitate clinical decision-making.

Published

2023

47. Supplementary Figure 5 from Combinatorial BCL2 Family Expression in Acute Myeloid Leukemia Stem Cells Predicts Clinical Response to Azacitidine/Venetoclax

Author

Andreas Trumpp, Tim Sauer, Carsten Müller-Tidow, Simon Raffel, Michael Heuser, Caroline Pabst, Michael Hundemer, Christoph Röllig, Richard F. Schlenk, Lisa Vierbaum, Stefanie Gryzik, Susanna Grabowski, Julia M. Unglaub, Vera Thiel, Darja Karpova, Elisa Donato, Rabia Shahswar, Maike Janssen, Barbara Betz, Cecilia Reyneri, Karolin Stumpf, Simon Renders, Aino-Maija Leppä, and Alexander Waclawiczek

Abstract

Subpopulation specific Bcl-2 family levels and time on HMA/Venetoclax

Published

2023

48. Supplementary Tables 1-7 from Combinatorial BCL2 Family Expression in Acute Myeloid Leukemia Stem Cells Predicts Clinical Response to Azacitidine/Venetoclax

Author

Andreas Trumpp, Tim Sauer, Carsten Müller-Tidow, Simon Raffel, Michael Heuser, Caroline Pabst, Michael Hundemer, Christoph Röllig, Richard F. Schlenk, Lisa Vierbaum, Stefanie Gryzik, Susanna Grabowski, Julia M. Unglaub, Vera Thiel, Darja Karpova, Elisa Donato, Rabia Shahswar, Maike Janssen, Barbara Betz, Cecilia Reyneri, Karolin Stumpf, Simon Renders, Aino-Maija Leppä, and Alexander Waclawiczek

Abstract

7 Tables showing: molecular and clinical patient data, cell line info, antibody panels and overview of assays used

Published

2023

49. A non-canonical enzymatic function of PIWIL4 maintains genomic integrity and leukemic growth in AML

Author

Shiva Bamezai, Alex Jose Pulikkottil, Tribhuwan Yadav, Vegi Mahalakshmi Naidu, Julia Mueller, Jasmin Mark, Tamoghna Mandal, Kristin Anja Feder, Susann Lehle, Chenlin Song, Reinhild Rosler, Sebastian Wiese, Jessica I Hoell, Andreas Kloetgen, Aly Karsan, Ankita Kumari, Luke Wojenski, Amit U Sinha, Irene Gonzalez-Menendez, Leticia Quintanilla-Martinez, Elisa Donato, Andreas Trumpp, Elisabeth Kruse, Stephan Hamperl, Lee Zou, Vijay P. S. Rawat, and Christian Buske

Subjects

Immunology, Cell Biology, Hematology, Biochemistry

Abstract

RNA-binding proteins (RBPs) form a large and diverse class of factors many members of which are overexpressed in hematological malignancies. RBPs participate in various processes of mRNA metabolism and prevent harmful DNA:RNA hybrids or R-loops. Here we report that PIWIL4, a germ stem cell-associated RBP belonging to the RNase H-like superfamily, is overexpressed in acute myeloid leukemia patients and is essential for leukemic stem cell function and AML growth, but dispensable for healthy human hematopoietic stem cells. In AML cells, PIWIL4 binds to a small number of known piwi-interacting RNA. It instead largely interacts with mRNA annotated to protein-coding genic regions and enhancers that are enriched for genes associated with cancer and human myeloid progenitor gene signatures. PIWIL4 depletion in AML cells downregulates human myeloid progenitor signature and LSC-associated genes and upregulates DNA damage signalling. We demonstrate that PIWIL4 is an R-loop resolving enzyme that prevents R-loop accumulation on a subset of AML and LSC-associated genes, and maintains their expression. It also prevents DNA damage, replication stress, and activation of the ATR pathway in AML cells. PIWIL4 depletion potentiates sensitivity to pharmacological inhibition of the ATR pathway and creates a pharmacologically actionable dependency in AML cells.

Published

2023

50. Supplementary Figures S1-S9 from A Dynamic rRNA Ribomethylome Drives Stemness in Acute Myeloid Leukemia

Author

Carsten Müller-Tidow, Andreas Trumpp, Roland Beckmann, Irmela Jeremias, Jeroen Krijgsveld, Simon Raffel, Michaela Frye, Claudia Baldus, Christian Thiede, Martin Bornhäuser, Christoph Röllig, Hubert Serve, Thomas Oellerich, Tim Sauer, Caroline Pabst, Xiaobing Yu, Haiyang Yun, Michelle Lotze, Stefanie Göllner, Daria Fijalkowska, Anna-Katharina Wirth, Jingdong Cheng, Christian Rohde, Yi Liu, Nesrine Aroua, and Fengbiao Zhou

Abstract

Supplementary Figure S1 shows enrichment of FBL in LSC, correlation of FBL with LSC signature and rRNA 2'-O-Me in healthy hematopoietic cells. Supplementary Figure S2 shows the association of rRNA 2’-O-Me with LSC and hematopoietic differentiation signatures. Supplementary Figure S3 shows strategy for LSC sorting and distribution of LSC methylation sites on ribosomes. Supplementary Figure S4 shows the effect of FBL knockdown on rRNA 2’-O-methylation and in vitro proliferation of leukemia cells. Supplementary Figure S5 show the effect of FBL overexpression on in vivo engraftment of primary AML cells. Supplementary Figure S6 shows the effect of FBL knockdown on nascent proteome and metabolism of AML cells. Supplementary Figure S7 shows the ribosome footprinting analysis after FBL knockdown. Supplementary Figure S8 shows the association of Gm1447 with LSC signature and the effect of Gm1447 supression on cellular amino acid levels. Supplementary Figure S9 shows regulatory effect of Gm1447 on in vivo leukemic self-renewal.

Published

2023