Fellows


Berlin

Kerstin Haase, PhD

 - Kerstin Haase, PhD

Functional genomics of paediatric cancers group, Experimental and Clinical Research Center (ECRC) of the Max Delbrück Center (MDC) and Charité Berlin, Germany

Postdoctoral Computational Biologist

E-Mail: kerstin.haase(at)charite.de

Project Title: Functional relevance of DNA circularization and its contribution to genetic heterogeneity and evolution in childhood solid tumours

My work aims to assess changes in extrachromosomal circular DNA (ecDNA) heterogeneity over time using various cell types and sequencing techniques. Insights from these data will help determine how circular DNA elements are selected for and expressed in the context of enhanced proliferation. Understanding the nature and clinical importance of ecDNA is currently limited by our ability to reconstruct entire circles and genomic fragments contained therein. Hence, my project involves adaption and integration of existing methods, as well as development of new algorithms to reliably quantify and reconstruct ecDNA elements from bulk and single-cell sequencing data at clinically relevant time points.


Dr. med. Dr.med. univ. Stefan Habringer

Charité – Universitätsmedizin Berlin

Medizinische Klinik mit Schwerpunkt Hämatologie, Onkologie und Tumorimmunologie (CBF)

Hindenburgdamm 30

12203 Berlin

stefan.habringer(at)charite.de 

Project Title: Identification and Targeting of Novel Target Structures in B Cell Lymphoma

B cell lymphomas (BCL) are genetically heterogeneous diseases, yet standard treatment is still primarily based on chemotherapy and CD20-antibodies, irrespective of molecular alterations. Therefore, targeted treatment strategies exploiting specific vulnerabilities of molecular subtypes are urgently needed. By means of forward-genetic, genome-wide screening using the PiggyBac transposon-transposase system in BCL-prone mouse models we are working on i) the identification of novel oncogenes and tumor suppressors, ii) deciphering mechanisms of lymphomagenesis and therapy resistance and iii) translation of our findings into molecularly-informed, targeted treatment strategies.

(© Charité – Universitätsmedizin Berlin)


Dr. rer. nat. Franz J. Hilke

 - Dr. rer. nat. Franz J. Hilke

Charité Universitaetsmedizin Berlin

Department Dermatology, Venereology and Allergology

AG Molecular Immunology Charité

Head of Experimental Research

Charitéplatz 1

10117 Berlin

franz.hilke(at)charite.de

 

 

Project Title: Identification and validation of genetic and cellular biomarkers for patient stratification, prognosis and early detection of resistance mechanisms in the context of tumor therapy.

My research interests lie in understanding and deciphering the molecular mechanisms underlying tumorigenesis and cause targeted and/or immune checkpoint inhibitor therapies to fail. Currently, we focus on biobanking for the purpose of comprehensive genomic tumor characterization and the implementation of liquid biopsy. Second, we study immune adverse events, especially in the skin, during immune checkpoint therapy to understand and compare the underlying molecular mechanism to inflammatory and autoimmune diseases of the skin. Third, we are interested in the different compartments of the immune system fighting cancer, particularly the role of the dendritic cells and the killing by granzymB.


Dr rer. nat. Arunima Murgai

 - Dr rer. nat. Arunima Murgai

Department of Hematology and Oncology

Charité – Universitätsmedizin Berlin

Berlin

arunima.murgai(at)charite.de

Protein ubiquitination is a post-translational modification that leads to proteasomal degradation or altered function of a protein. My project aims to investigate the oncogenic role of deubuquitinating enzymes (DUBs) and their exploitation as drug targets in Acute Myeloid Leukemia (AML). Our preliminary CRISPR screenings for DUB inactivation identified USP7 to be essential for several AML cell lines. A combinatorial approach encompassing proteomic, biochemistry and molecular biology analyses will aim to identify novel the substrates of USP7 which are critical for AML. The results of this project will help to further understand the role of the ubiquitin-proteasome system in the pathogenesis of AML and to identify new therapeutic approaches.


Dr. med. Daniel Nörenberg

© Charité – Universitätsmedizin Berlin - Dr. med. Daniel Nörenberg

Department for Hematology, Oncology and Tumor Immunology

German Cancer Consortium (DKTK), partner site Berlin

Campus Virchow Clinic, Charité Berlin

daniel.noerenberg(at)charite.de

Project Title: Genetic Characterization of Primary Mediastinal B cell Lymphoma

Unravelling genetic aberrations underlying PMBL lymphomagenesis has the potential to identify new targets for tailored therapy approaches. A thorough description of the mutational spectrum in PMBL and the identification of key oncogenic drivers will thus facilitate rational therapeutic approaches. Until now, we have collected the world’s largest PMBL cohort (n>400) through national and international collaborations comprising clinically well annotated patients. Using a combination of whole-exome, targeted deep resequencing and gene expression analysis, we aim to identify key oncogenic drivers and deregulated signaling pathways in PMBL. Based on the previous molecular analyses, functional consequences of candidate driver mutations will be analyzed in PMBL cell lines using the CRISPR/Cas technology.

(© Charité – Universitätsmedizin Berlin)


Dr. med. Julian Rogasch, MD

© Charité – Universitätsmedizin Berlin - Dr. med. Julian Rogasch, MD

Department of Nuclear Medicine

Charité – Universitätsmedizin Berlin

Augustenburger Platz 1

D-13353 Berlin, Germany

E-Mail: julian.rogasch(at)charite.de

Project Title: Image-derived biomarkers from FDG-PET/CT for staging and prognosis in non-small cell lung cancer

The research aims at improving non-invasive pretherapeutic staging using FDG-PET/CT in patients with non-small cell lung cancer (NSCLC) using image-derived biomarkers (radiomics) and machine learning-based classifiers. A special focus is to improve thoracic lymph node staging. Furthermore, biomarkers are used to develop more differentiated prognostic models to predict patient survival after curatively intended treatment.

(© Charité – Universitätsmedizin Berlin)


Paulina Strzelecka, PhD

 - Paulina Strzelecka, PhD

Department of Hematology, Oncology, and Tumor Immunology

Charité - Universitätsmedizin Berlin

Augustenburger Platz 1

D-13353 Berlin, Germany

Humboldt Postdoctoral Research Fellow

Email: paulina.strzelecka(at)charite.de

Project Title: Clonal haematopoiesis of indeterminate potential (CHIP) at single-cell resolution

Clonal haematopoiesis of indeterminate potential (CHIP) is an age-related condition characterized by the presence of somatic mutation(s) in a haematologic cancer-associated gene in a blood of otherwise healthy individuals. In affected individuals, a substantial proportion of mature blood cells is derived from a dominant stem cell that acquired the mutation. My project focuses on the application of single-cell techniques (single-cell transcriptomics and single-cell epigenetics) to decipher the changes in a population of blood cells stemming from the presence of the mutations. The results are expected to reveal how somatic mutations affect cellular programmes in a cell type specific manner. 

 


Dr. med. Philipp Jurmeister

© Charité – Universitätsmedizin Berlin - Dr. med. Philipp Jurmeister

Institute of Pathology

Charité – Universitätsmedizin Berlin
Charitéplatz 1

D-10117 Berlin

philipp.jurmeister(at)charite.de

Project Title: Improved interpretation of tumor DNA methylation signatures for comprehensive classification and analysis of chromosomal aberrations.

DNA methylation analysis is a rapidly emerging technique in diagnostic pathology. The combination of epigenetic signatures and advanced machine learning tools enables pathologists to solve previously unsolved diagnostic problems. We are working on refining the classification of various tumor entities such as squamous cell carcinomas or sinunasal tumors to optimize diagnostic accuracy and treatment decisions. By using explainable artificial intelligence, we aim to remove the ‘black box’ from machine learning-based classification and develop new hypotheses on the role of DNA methylation in cancer pathogenesis. Also, we investigate links between structural variations and DNA methylation.

(© Charité – Universitätsmedizin Berlin)


Dresden

Dr. Susanne Michen

 - Dr. Susanne Michen

Experimental Neurosurgery/Tumor immunology

Department of Neurosurgery

University Hospital Carl Gustav Carus

Dresden, Germany

Group leader “NK cell-based immunotherapies of malignant neoplasias”

susanne.michen(at)ukdd.de

Project Title: Development of novel immunotherapies with genetically modified primary NK cells for cancer treatment

We are focusing on NK cell-based immunotherapy of solid tumors, especially brain tumors such as glioblastoma multiforme. NK cells are able to recognize and kill malignant cells with loss of HLA class I expression and concomitant upregulation of stress ligands for activating NK cell receptors. However, most glioma cells express HLA class I molecules and NK cells are additionally blocked by immune-suppressive HLA-E and HLA-G molecules. To overcome this, we generate CAR-modified NK cells directed against various surface-exposed tumor-associated antigens. However, the expansion of these CAR-NK cells to clinically applicable numbers still represents a major hurdle. Therefore, our research focuses on novel methods for selective expansion of CAR-NK cells.

 


Essen

Esteban Arrieta-Bolaños DrMBCC, PhD

 - Esteban Arrieta-Bolaños DrMBCC, PhD

Institut für Zelltherapeutische Forschung

Universitätsklinikum Essen, Deutschland

www.uk-essen.de/en/zelltherapeutische-forschung/

esteban.arrieta-bolanos(at)uk-essen.de

Project Title: Harnessing the biological principles of alloreactivity for immunotherapy of hematological malignancies

We are interested in understanding the biological principles of T-cell alloreactivity, in particular against the HLA class II molecule HLA-DP, in the context of hematopoietic cell transplantation (HCT) for the treatment of hematological malignancies. Our research focuses on unraveling determinants of harnessed alloreactive responses, looking at both sides of the immunological equation, i.e. HLA immunopeptidomics and alloreactive T-cell diversity. Our aim is to identify therapeutic approaches and interventions, as well as molecular and cellular products with translational application, in order to manipulate alloreactive responses and improve leukemia immunotherapy and the efficacy of HCT.


Dr. Johann Matschke

 - Dr. Johann Matschke

Institute of Cell Biology (Cancer Research)

University Hospital Essen, University of Duisburg-Essen

45147 Essen, Germany

johann.matschke(at)uk-essen.de

Project Title: Role of Metabolism in Radiation response

Our research focuses on the role of metabolic reprogramming in cancer cells for intrinsic, microenvironment-induced, and adaptive radioresistance and the identification of associated specific metabolic vulnerabilities of cancer cells suited to improve the cytotoxic efficacy of radiotherapy.

Therefore, we have established various specific in vitro methods for the analysis and evaluation of radiobiology endpoints, cell metabolite levels, real-time metabolic fluxes in normoxia and hypoxia (Seahorse Bioanalyser). We also perform time-resolved metabolome analyses with national and inter-national cooperation partners. Long-term goal is to develop effective strategies for a targeted cancer cell radiosensitization and to identify associated stratification markers.

 


Frankfurt

Korbinian Kropp, MD

 - Korbinian Kropp, MD

University Cancer Center (UCT), University Medical Center (UMC) of the Johannes Gutenberg University and German Cancer Consortium (DKTK)

Partner Site Frankfurt/Mainz, Germany Department of Internal Medicine III (Hematology, Oncology, Pneumology)

korbinian.kropp(at)unimedizin-mainz.de

Project Title: Targeted knock-in of an HLA-independent, TRP2-specific (chimerized) T-cell receptor using CRISPR/Cas9 and homology-directed repair templates.

In this project, we investigate a novel approach to the generation of transgenic T cells based on the genome-editing platform CRISPR/Cas9. Following the methods of Eyquem et al. (Nature 2017, 543:113-117) and Roth et al. (Nature 2018, 559:405-409) we place tumor-reactive TCRs at the endogenous TCR locus thereby knocking out endogenous TCR expression in a one-step knockout/knock-in approach. This enhances expression of transferred TCRs, minimizes mispairing and thus may ultimately improve safety of patients in potential future translational approaches. In particular, we redirect T cells against melanoma by knock-in of an HLA-independent TRP2-specific TCR.


Pia Zeiner, MD

 - Pia Zeiner, MD

Dr. Senckenberg Institute of Neurooncology

University Hospital Frankfurt/Main

 pia.zeiner(at)kgu.de

Project Title: Interaction between glioma-associated microglia/macrophages and tumor cells in the context of targeted cancer therapies and immunotherapies

Short description: Our research is focusing on the investigation of the immunological response in the microenvironment of brain tumors with a special focus on glioma-associated microglia and macrophages (GAMs). In particular, we assess the influence of established and novel targeted therapies on GAM functions and the potential impact on therapeutic response in glioblastoma patients. One aim of the study is the detailed characterization of the mTOR-signalling cascade as a central regulator and potential therapeutic target in GAMs. 


Freiburg

Petya Apostolova, MD

 - Petya Apostolova, MD

Department of Immunometabolism

Max Planck Institute of Immunobiology and Epigenetics

Department of Hematology, Oncology and Stem Cell Transplantation

Medical Center - University of Freiburg

Prject Title:

  • Tumor and immune cell metabolism
  • Regulation of alloimmune responses after allogeneic hematopoietic stem cell transplantation
  • Immune checkpoint inhibitor therapy and novel therapies for immune-related adverse events

Metabolism is one of the key components of cell biology. Different metabolic processes determine proliferation, differentiation and phenotype of every cell. My work focusses on understanding the evolution of cancer cell metabolism in different stages of disease and how malignant cells and immune cells interact on the metabolic level. Additional research interests include the regulation of the alloimmune response after allogeneic hematopoietic cell transplantation as well as improving the understanding about immune-related adverse events during checkpoint inhibitor therapy.


Ali Caglar Özen, Dr.-Ing.

 - Ali Caglar Özen, Dr.-Ing.

Department of Radiology and Radiotherapy at the University Medical Center Freiburg

  • German Cancer Consortium (DKTK), partner site Freiburg
  •  German Cancer Research Center (DKFZ)

Projects: 17O MRI for Regional CMRO2 Mapping; Development of Actively Visualized Devices and Safety of MRI-guided Interventions

MR Imaging with nuclei other than 1H provide additional information about tissue metabolism. MRI with the stable isotope 17O is used to quantify tissue oxygenation e.g. to optimize the treatment strategy in brain tumors. We develop dedicated imaging pulse sequences, novel reconstruction methods and radio frequency hardware to translate 17O MRI to clinical routine. 

MRI provides soft tissue contrast superior to x-ray technology and ultrasound. Therefore, MRI-guided operations such as biopsy, therapy, cardiovascular catheterization using active and passive devices such as metallic needles, metallic guidewires, electrodes, and active catheters becoming increasingly popular. We work on increasing the MRI visibility of interventional devices, assess the safety of those devices under MRI, and develop novel methods to investigate and eliminate potential safety risks.


Ann-Christin Eder, PhD

 - Ann-Christin Eder, PhD

Division of Radiopharmaceutical Development

German Cancer Consortium (DKTK), Partner Site Freiburg

Department of Nuclear Medicine

University Medical Center

Freiburg, Germany

Head of Biotechnological Development and Preclinical Imaging

Project Title: Development and translation of novel theranostic hybrid molecules for pre-, intra-, and postoperative diagnosis and therapy of cancer

Our research is focusing on identifying new biomarkers for the classification of tumors, assessing metastasizing potential and monitoring therapy. In particular my group is working on the development of small molecule peptides with a strong focus on hybrid molecules suitable for preoperative imaging, intraoperative navigation as well as for targeted endoradiotherapy of different cancer types. Therefore, we are using innovative biological, biotechnological and chemical approaches to identify novel peptides to a variety of clinically relevant target structures. Our development pipeline comprises the identification of potential binders, their detailed preclinical characterization including imaging studies finally leading to clinical translation.


Linda Gräßel, MD

Department of Hematology, Oncology, and Stem Cell Transplantation

University Medical Center Freiburg

Project Title: Impact of CD30-mediated immune response in T-cell-lymphomas

The aim of this project is to get a better understanding of CD30-axis in disease progression in ALK-induced T-cell lymphomas with focus on immune response, immune escape mechanisms like immunoediting, involved pathways and other immune evasion mechanisms.


Lena Hölzen, M.Sc.

 - Lena Hölzen, M.Sc.

Institute of Molecular Medicine and Cell Research, Medical Faculty, Albert-Ludwigs-University Freiburg, D79104   Freiburg, Germany

Faculty of Biology, Albert-Ludwigs-University Freiburg, D79104 Freiburg, Germany

German Cancer Research Center (DKFZ), D69102 Heidelberg, Germany

German Cancer Consortium (DKTK), partner site Freiburg, D79106 Freiburg, Germany

Project Title: Degradome-wide genetic interference screening in murine breast cancer cells

In my PhD-project I am employing a degradome-wide inducible high-throughput genetic RNAi-based protease knockdown screes in two murine breast cancer cells lines to functionally analyze the role of proteases in breast cancer. Furthermore, I am investigating the functional connectivity between proteases and the highly cancer-associated PI3K-pathway using synthetic lethality screens.


Stefanie Kreutmair, MD

 - Stefanie Kreutmair, MD

Experimental Immunology

University Zürich

Switzerland

Project Title: The immune environment of acute myeloid leukemia

Acute myeloid leukemia (AML) is the most common hematologic malignancy in adults. It is characterized by poor outcome with an overall 5-year-survival of only 50% in young patients and 20% in elderly patients. As the curative potential of allogeneic hematopoietic stem cell transplantation is dependent on immunotherapeutic effects (graft-versus-leukemia effects), immune evasion seems to play a pivotal role in the pathogenesis of AML. A comprehensive research program using highdimensional single cell cytometry combined with bioinformatic analyses represents a powerful tool to gain deep and unbiased insights into the immune signatures of AML patients. Immune patterns that predict response may be integrated into the stratification of AML, particularly in the absence of predictive genetic markers. To verify the impact of the identified signatures, detailed functional analyses of patient mononuclear cells will be performed in vitro to investigate the effect of cell-intrinsic and -extrinsic alterations on anti-AML immunity. The ultimate goal is to identify novel stratifying biomarkers and/or therapeutic targets to overcome immune evasion of AML cells and achieve improved patient outcome.


Ella Levit Zerdoun, PhD

 - Ella Levit Zerdoun, PhD

Institut für Medizinische Bioinformatik und Systemmedizin

Medizinische Fakultät, Albert-Ludwigs-Universität Freiburg

Arbeitsgruppe Boerries für Systembiologie und Systemmedizin am DKFZ Partnerstandort Freiburg - DKTK

Institut für Molekulare Medizin und Zellforschung, Albert-Ludwigs-Universität Freiburg

Project Title: Genotypic and phenotypic characterization of patient-derived melanoma cell lines

Based on a transcriptome analysis, the aim of this project is to characterize the phenotypic properties of the four individual malignant melanoma cell lines, such as cell survival, proliferation, migration, and invasion. Furthermore, we are studying the underlying mechanisms, which effectuate the phenotype of the melanoma cell lines. Therein, we mainly focus on the MAPK/ERK or PI3K pathways, components of which are frequently mutated and thus are often constitutively active in cancer cells, driving their development and enhanced survival.

Project Title: Identification of early detection markers in pancreatic ductal adenocarcinoma (PDAC)

The aim of this project is to establish an early genetic classifier of PDAC based on a meta-analysis of independent studies. In combination with system biology and bioinformatics approaches, it is our aim to identify early markers of PDAC in patient-derived samples (eg. liquid biopsies). This may allow the differentiation of PDAC from early pancreatic intraepithelial neoplasia (PanIN), pancreatitis, and healthy tissues. In a parallel approach, we seek to inactivate the classifier genes in established PDAC cell lines and to assess the effects of the inactivation on the functionality of these cells.


Christoph Müller, M. Sc.

 - Christoph Müller, M. Sc.

Department of Radiology and Radiotherapy at the University Medical Center Freiburg

German cancer research center (DKFZ).

Projec Title: Carbon-13 MR spectroscopic imaging of hyperpolarized tracers with advanced acquisition strategies

Next to chemical shift imaging (CSI) and echo planar spectroscopic imaging (EPSI), steady state imaging methods can also be utilized to access a spectral resolution by implementing multiple readouts with short time differences within one echo. In that manner such sequences (SSFP, CPMG) combined with multi-echo readout promise most efficient acquisition of the transient signal of hyperpolarized tracers, especially when large fields of view or 3D volumes are to be imaged.


Florian Scherer, MD

 - Florian Scherer, MD

Department of Hematology, Oncology, and Stem Cell Transplantation

University Medical Center Freiburg

My research interests are focused on developing non-invasive biomarkers (Liquid Biopsy) that help improve the clinical management of cancer patients and understand biological factors driving hematological and solid malignancies. In our current project, we aim to characterize the role of circulating tumor DNA for non-invasive tumor genotyping and disease monitoring in patients with brain cancers.


Dr. Carla Schmidt

 - Dr. Carla Schmidt

Department of Thoracic Surgery – Division of Cancer Research, University Medical Center Freiburg

German Cancer Consortium (DKTK), Partner Site Freiburg

Breisacherstr. 115

79106 Freiburg i.Br.

carla.schmidt(at)dkfz-heidelberg.de

 

Project Title: Discovering non-canonical driver mutations in cancer in high-throughput using endogenous models

Most point mutations found in cancer are functionally uncharacterized and hence cannot be exploited for patient stratification and therapy decisions. Current approaches to study mutations endogenously are time-consuming and lack the possibility for high-throughput. In this project, we focus on the introduction of comprehensive libraries of targeted mutations endogenously into the cell genome using innovative CRISPR-derived tools to assess their functional impact and their impact on therapy response and resistance.


Tamara Werner, PhD

 - Tamara Werner, PhD

Institute for Surgical Pathology, University Medical Center Freiburg

German Cancer Consortium (DKTK), partner site Freiburg

German Cancer Research Center (DKFZ)

Project Title: Cell culture as a model system for liquid biopsy

My current translational cancer research is focusing on the topic of liquid biopsy. I study colorectal cancers and experimental cellular model systems. This also involves establishment, validation and transfer of innovative techniques for molecular diagnostics.


Heidelberg

Jakob Nikolas Kather, MD, MSc

 - Jakob Nikolas Kather, MD, MSc

Department of Medicine III

University Hospital RWTH Aachen

52074 Aachen, Germany

jkather(at)ukaachen.de

Medical Oncology, National Center for Tumor Diseases (NCT)

University Hospital Heidelberg

69120 Heidelberg, Germany

jakob.kather(at)nct-heidelberg.de

www.kather.ai 

Project Title: Computational Oncology

We are a young, interdisciplinary group of scientists using computational methods to decipher cancer. Our main tools are Deep Learning and Computational Modeling. We combine these tools with a clinical perspective on cancer genomics, targeted treatment and immunotherapy. Our focus is gastrointestinal cancer, including cancer of the bowel, stomach, liver and pancreas. To learn more about our research, have a look at our featured publications.


Andreas Mock

 - Andreas Mock

Department of Translational Medical Oncology

National Center for Tumor Diseases (NCT) Heidelberg

andreas.mock(at)nct-heidelberg.de

twitter: @am0ck

Project Title: RNA-centric Systems Biology for Precision Oncology

As a physician and data scientist within the NCT/DKTK MASTER (Molecularly Aided Stratification for Tumor Eradication Research) program, my research is concerned with developing RNA-based methodologies and predictive algorithms for Precision Oncology. Transcriptional signatures hold great promise to be the next generation predictive biomarkers as they enable the integration of oncogenic pathway activation states with the composition of the tumor immune microenvironment.


Antonia Schubert, MD

 - Antonia Schubert, MD

National Center for Tumor Diseases (NCT)

Department of Medical Oncology and German Cancer Research Center (DKFZ)

Signaling and Functional Genomics (Prof. Dr. Michael Boutros)

Heidelberg, Germany

a.schubert(at)dkfz.de

Twitter @_A_Schubert

Project Title: Novel strategies to analyze the role of Wnt-signaling in cancer

Deciphering the crosstalk of tumor cells and their surrounding stroma during cancer progression and metastasis is of highest importance to further optimize therapeutic strategies and prevent late recurrence. Wnt signaling governs cell faith and tissue polarity during development and aging. It was found dysregulated in various pathological processes and diseases such as cancer. This project aims to get further mechanistic insights into the complex Wnt-signaling networks using genome engineering and advanced imaging techniques that could lead to the identification of targets for earlier diagnostics and therapeutic intervention.


Thomas Walle

 - Thomas Walle

Department of Medical Oncology

National Center for Tumor Diseases (NCT) Heidelberg

Heidelberg, Germany

t.walle(at)dkfz-heidelberg.de

Twitter: @science_wallet

Project Title: Systems immunodiagnostics platforms for combination cancer immunotherapy

The induction of effective anti-tumor immune responses is paramount for deep clinical responses to cancer immunotherapy. Here, we will develop a pan-tumor, pan-immunotherapy, low-cost, multiparametric and interpretable on-treatment biomarker for (combination) cancer immunotherapy. For this purpose, we will analyze changes in the serum proteome and peripheral blood mononuclear cell phenotype under steady state and controlled ex vivo perturbation using CITE-seq (10.1038/nmeth.4380), flow cytometry and mass spectrometry. Based on these omics data, we will construct a machine learning classifier to accelerate cancer immunotherapy development in adaptive clinical trials by a manifold.


Roberto Würth, PhD

 - Roberto Würth, PhD

Division of Stem Cells and Cancer (A010, Prof. Andreas Trumpp)

German Cancer Research Center (DKFZ)

Foundation under Public Law

Im Neuenheimer Feld 280

69120 Heidelberg

r.wuerth(at)dkfz.de 

https://www.dkfz.de/en/stammzellen-und-krebs/mitarbeiter.html

https://www.researchgate.net/profile/Roberto_Wuerth 

https://www.linkedin.com/in/wuerth/ 

ORCID: 0000-0002-8156-6756

Project Title: A liquid biopsies platform to study metastasis and to reveal individualized resistance mechanisms in breast cancer patient


München

M. Sc. Bruno Cadilha

 - M. Sc. Bruno Cadilha

Department of Clinical Pharmacology

Klinikum der Universität München

bruno.cadilha(at)med.uni-muenchen.de 

Project Title: Improving infiltration of genetically engineered T cell into solid tumors

My main focus is translation research on T cell biology engineering to improve the efficacy of adoptive T cell therapy for solid malignancies. I study the potential of chemokine receptors to enable trafficking and improved infiltration of effector T cells in several solid tumors and with a keen interest in pancreatic cancer. In the Kobold laboratory, I have the opportunity of developing this project in vitro as well as in several syngeneic and xenograft mouse models. In parallel, I am pursuing clinical training in pharmacology and immunology. 


Dr. med. Erik Thiele-Orberg, PhD

 - Dr. med. Erik Thiele-Orberg, PhD

Department of Hematology and Oncology

University Hospital Rechts der Isar

München

e.orberg(at)tum.de

Project Title: Microbiome-based treatments of acute intestinal damage in haematological malignancies and stem cell transplantation

Our research focuses on the cellular and molecular interactions between microbiome and the gastrointestinal (GI) mucosa in humans. We are interested in how microbiota modulates innate immunity and the intestinal stem cell niche with the aim of developing microbiome-based treatments to promote resistance and regeneration in the setting of acute GI damage resulting from chemotherapy, irradiation and stem cell transplantation.


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