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Team Oellerich Lab

Oellerich Lab
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Prof. Dr. med Thomas Oellerich
GOETHE UNIVERSITY & GERMAN CANCER CONSORTIUM (DKTK)

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Prof. Dr. med.
Thomas Oellerich (he/him)

Department Director


  • Speaker German Cancer Consortium (DKTK),
    Site Frankfurt/Mainz
  • Principal Investigator
  •  

 
Migena Irrgang (she/her)

Personal Assistant


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Phone: +49 69 6301 83969



Dr. rer. nat.  
Lisa Kruszynski-Bischof (she/her)

Scientific Coordination DKTK Frankfurt/Mainz


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Phone: +49 170 6179688


 

Mechanistic lymphoma,
leukemia and cell therapy research

Dr. phil. nat.
Carmen Döbele (she/her)

Lab Head Mechanistic Research


E-Mail: Currently Out Of Office

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Dr. rer. nat.
Niklas Dienstbier (he/him)

Team Lead


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Phone: +49 69 6301 84001

Dr. rer. med.
Ramesh K Krishnan (he/him)

Team Lead


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Phone: +49 69 6301 7297

M.Sc.
Ariana Jacobs (she/her)

PhD Student


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Phone: +49 69 6301 84001

M.Sc.
Chantal Schmidt (she/her)

PhD Student


E-Mail: ch.schmidt|med.uni-frankfurt.de
Phone: +49 69 6301 84001

M.Sc.
Ria Mainkar (she/her)

PhD-Student


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Phone: +49 69 6301 84001

M.Sc.
Sareh Amerifar (she/her)

PhD-Student


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Dr. med.
Anne Wilke (she/her)

Clinician Scientist


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Dr. med.  
Julian Lohmeyer (he/him)

Clinician Scientist


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Dominique Jahn (she/her)

Lead Technical Assistant


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Phone: +49 69 6301 6148

 
Silvia Münch (she/her)

Technical Assistant


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Phone: +49 69 6301 6148

 
Corinna Strolz (she/her)

Technical Assistant


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Phone: +49 69 6301 6148

 
Razia Ahmad (she/her)

Lab Manager


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Phone: +49 69 6301 7297

 
Donatella Novelli (she/her)

Lab Assistant


E-Mail:

Phone: +49 69 6301 7297

 
Judith Quilamba (she/her)

MD Student


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Phone: +49 69 6301 84001

 
Asena Altiok (she/her)

MD Student


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Translational & Clinical Proteomics

Dr. rer. nat.
Björn Häupl (he/him)

Lab Head Proteomics


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Phone: +49 69 6301 84007

Dr. rer. nat. 
Josefine Jakob (she/her)

FCI Staff Scientist


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Phone: 069 6301 86296

 
Martine Pape (she/her)

Lead Technical Assistant


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Phone: +49 69 6301 84007

 
Marion Bodach (she/her)

Technical Assistant


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Phone: +49 69 630184007

Dr. med.
Julius Enssle (he/him)

Clinician Scientist


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Phone: +49 69 6301 84001

Dr. med.
Sebastian Wolf (he/him)

Clinician Scientist


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Phone: +49 69 6301 84001

Dr. rer. nat.
Nabil Ahmed (he/him)

Postdoctoral Researcher


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Phone: +49 69 6301 84001

Dr. med.
Tonio Brinkschmidt (he/him)

Clinician Scientist


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Phone: 069 6301 80654

 
Pascal Hoffmann (he/him)

Resident


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Phone: 0151/17192349

M.Sc. 
Jana Rausch (she/her)

PhD Student


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Phone: +49 69 6301 84001

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Oellerich Lab

Research

Research

GOETHE UNIVERSITY & GERMAN CANCER CONSORTIUM (DKTK)

Oellerich Lab

Research

GOETHE UNIVERSITY & GERMAN CANCER CONSORTIUM (DKTK)

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Lymphoma. Leukemia.
Cell Therapy.
Research

Mechanistic Cancer Research

Our mechanistic cancer research focuses on lymphoma and acute myeloid leukemia.

We combine innovative technologies such as proteomics, (functional) genomics, and molecular and cellular biology approaches to elucidate oncogenic mechanisms. To target these mechanisms, we additionally design and clinically validate innovative therapies. In lymphoma, we study the oncogenic pathways affecting B-cell receptor signaling, chromatin structure, and the tumor microenvironment. Additionally, in collaboration with Stefan Knapp (Dept. of Medicinal Chemistry, Frankfurt) we develop innovative drugs specifically targeting the newly identified oncogenic effector proteins. In AML, we currently focus on deregulated proteogenomic and metabolic programs and their therapeutic implications. More recently, we have expanded our mechanistic research program towards studying CAR-cell therapeutics with the goal to enhance their efficacy and to overcome resistance mechanisms.

Cell Therapy Research

Cell Therapy New

We elucidate the molecular pathways controlling CAR T-cell activity and study resistance mechanisms mediated by the tumor microenvironment. Our goal is to improve the efficacy of cell therapeutics, while minimizing their toxic side effects.

Cell Therapy New

Clinical proteogenomics and systems biology

In addition to our mechanistic cancer research, we have established a pipeline for the proteogenomic (multi-omics) analysis of patient-derived tumors, with a main focus on lymphoma and leukemia.

We elucidate proteomic and genomic features and integrate them to identify, so far, unresolved aspects of tumor biology. The addition of single-cell sequencing analysis furthermore allows us to link observed patterns to individual tumor cells, or cells of the tumor microenvironment.

We have established the entire value chain, including relevant patient cohorts and clinical expertise, along with innovative proteomic and genomic technologies, IT infrastructure, as well as bioinformatics for integrative multi-modal data analysis. The goal of our proteogenomics research program is to further refine the molecular classification of tumors, to elucidate their pathophysiology, to identify biomarkers predicting therapy response, and to foster the development of innovative therapies.

Bioinformatics

To fully leverage the comprehensive proteogenomic data that we are able to acquire from large patient cohorts, we collaborate closely with the lab of DKTK professor Florian Buettner (https://mlo-lab.github.io/author/florian-buettner). Together, we pursue the development and application of novel tools and algorithms for machine-learning and artificial intelligence based multi-omics data integration. We ensure that these tools are inherently interpretable, trustworthy, and are accompanied with user-friendly implementations in order to ensure broad applicability across diverse tumor entities.

Selected Technologies

Proximity Ligation
Assays (PLA)

The proximity ligation assay is a well-established imaging methodology which allows us to evaluate the location and interaction of two specific protein targets in situ. In short, we are able to detect whether two proteins are within a certain proximity to each other (<40nm) and through quantification of fluorescent puncta upon confocal visualization, we can evaluate and quantify interaction differences upon specific treatments or genetic modifications.

Single-Cell Sequencing

Our laboratory integrates single-cell technologies to understand cellular behavior with unprecedented precision. Using single-cell RNA sequencing (scRNA-seq) and chromatin accessibility profiling (scATAC-seq), we examine immune cell populations and tissue architecture at the individual cell level. This allows us to elucidate the clonal architecture of healthy and diseased tissues.
Working closely with our bioinformatics and functional genomics teams, we combine single-cell transcriptomics with targeted gene editing in high-throughput formats. This approach allows us to systematically study how genetic changes affect cellular function, advancing our understanding of disease mechanisms.

CRISPR Cas9-based
functional genomics

A broad set of targeted and screening applications based on the CRISPR-Cas9 technology is applied in our laboratory to unravel cancer biology. Examples include CRISPR-Cas9-based loss/gain of function or mutant knock-in screens that we use to study oncogenic pathways and therapy resistance mechanisms in lymphoma and leukemia

Mass Spectrometry

Next to the molecular biology branch, our lab is home to the proteomics platform of the DKTK partner site Frankfurt/Mainz and the Frankfurt Cancer Institute (FCI). It allocates expertise and technology predominantly to Frankfurt-based DKTK/FCI researchers, but also at other partner sites like Berlin, Heidelberg and Munich, as well as DKTK/FCI collaboration partners abroad.

Currently, the platform is running four LC/MS systems (Thermo Fisher Scientific Q-Exactive series and Orbitrap Astral) and is fully equipped with state-of-the-art instrumentation for sample preparation and a powerful IT infrastructure. The available workflows for MS-based proteomics include global protein expression profiling of model systems and clinical samples, the analysis of post-translational modifications like phosphorylation or ubiquitination, as well as protein interaction studies. Typically, these are combined with isotopic labeling techniques (SILAC, TMT) or label-free approaches for relative protein quantitation. Moreover, the platform is open for the implementation of dedicated strategies required to promote specific projects of collaboration partners from the cancer research community. Thereby, interested DKTK/FCI researchers have full access to the platform services and receive project-specific advice.

The proteomics platform engages in the mechanistic elucidation of oncogenic processes, especially in the context of lymphoma and leukemia, but also colorectal cancer, glioma, breast cancer and lung cancer. Furthermore, the activities of the platform strongly focus on the systematic characterization of well-defined patient cohorts of these cancer entities, including trial cohorts and analyzing fresh-frozen as well as FFPE tissue samples and blood plasma. To this end, the achievements of the platform i) facilitate to identify proteomic disease subtypes with prognostic and predictive relevance in highly-collaborative multi-omics projects and ii) enable the allocation of proteomic workflows to DKTK/FCI investigators for their translational cancer research.

Protein Interactome Profiling

We have established a broad range of quantitative MS assays for the unbiased analysis of protein-protein interactions and their temporal dynamics. Our BioID/ Turbo-ID assays rely on the fusion of a protein of interest (bait) with a promiscuous biotin ligase enzyme, known as BirA*. Upon expression in living cells, this fusion protein biotinylates proximal proteins within a radius of 10-20 nanometers, covalently attaching biotin molecules to lysine residues. Subsequently, biotinylated proteins are isolated using streptavidin affinity purification, followed by elution and identification via mass spectrometry. By capturing proteins that come into close proximity with the bait protein, the BioID assay provides a comprehensive snapshot of the protein interactome within the cellular context.

Tissue/Blood Proteomics

A well-established portfolio of proteomic workflows enables the purification of proteins from a variety of biological materials. Proteins can be isolated from cell culture models and freshly isolated tumor cells as well as from fresh frozen and FFPE tissues. Recently, plasma proteomics was implemented in the lab using the fully automated pipeline for plasma protein enrichment with the Proteograph SP100 from Seer (https://seer.bio). Seer’s nanoparticle technology uses engineered nanoparticles to capture proteins across the entire dynamic range, providing an unbiased sampling of the plasma proteome.

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Oellerich Lab

GOETHE UNIVERSITY & GERMAN CANCER CONSORTIUM (DKTK)

Oellerich Lab

Prof. Dr. med Thomas Oellerich
GOETHE UNIVERSITY & GERMAN CANCER CONSORTIUM (DKTK)

HOME

RESEARCH

OUR TEAM

NETWORK & FUNDING

PUBLICATIONS

CONTACT

FOCUS AND MISSION

Our research laboratory, embedded within the German Cancer Consortium (DKTK) and the Frankfurt Cancer Institute (FCI), is dedicated to unraveling the intricate mechanisms underlying lymphoma and leukemia biology, along with the vision to translate our research findings into clinical advancement. Our focus is the identification of drug targets and predictive biomarkers, the elucidation of therapy resistance mechanisms, and the development of innovative therapeutic approaches, including molecular and cellular therapies. Therefore, we combine deep mechanistic research with cutting-edge technologies such as mass-spectrometry-based proteomics, functional genomics and high-resolution imaging to study innovative tumor models and patient-derived tumors.

Our research is closely integrated into national (e.g. DKTK/NCT, Max-Planck) and international networks (e.g. NIH), emphasizing our interest in collaborative and international research. With a strong commitment to translational research and our proven track-record in translating lab research into the clinic, our ultimate goal is to improve patient outcome and quality of life.

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