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Laboratory for Translational Immunology (TRIM)

Decades of work in basic and tumor immunology research have identified key factors hampering proper anti-tumor immune response, including suppressive T cells, Inhibitory checkpoint molecules, and suppressive cytokines secreted by tumor- and antigen-presenting cells. Such discoveries have led to the development of many drugs that revolutionized  cancer treatment.

While tumor immunology research is currently directed towards the study of inhibitory surface markers, such as PD-1, CTLA-4, TIGIT, and TIM3, we search in the deep sea where epigenetic factors shove the immune dysfunction in cancer patients. The search for transcriptional factors that initiate the first signals for T cell exhaustion, in cancer patients, has led to the identification of novel drug targets that would reinforce tumor immunotherapy.

As a part of the largest study group focusing on Multiple Myeloma in Germany, the German-speaking Myeloma Multicenter Group “GMMG”, we utilize the combination of clinical outcomes gathered through our clinical trial with high throughput genomics approaches, as well as T cell functional assay, to investigate the transcriptional pathways that are involved in tumor escape mechanisms.

In our previous work, we examined the predictive and prognostic values of immunological markers expression in patients with Multiple Myeloma and identified the role of transcriptional factors expression in T cells.

Our Laboratory approaches include Flow Cytometry, RT-PCR, Western Blotting, CRISPR Cas9 Knock out, RNA bulk Seq, Single Cell Seq, Luciferase Reporter Assay, ELISA, and ELISPOT. 

Our current projects:

  1. The Immunomodulatory Impact of IKZF3 expression on T cells in patients with Multiple Myeloma.
  2. Immuno-reconstitution analyses of patients enrolled in the GMMG-HD7 clinical trial.
  3. The Identification of transcriptional factors that guide CD8+ cells towards exhaustion state in cancer patients.

Meet our team

Medical-technical assistants

Technical assistant

  • Sarah Friedrich

    Biologisch-technische Assistentin

Research associate

Collaborators

German-speaking Myeloma Multicenter Group (GMMG)

Laboratory for Hematological Diagnostics and Biobanking in University Hospital Heidelberg

The Johns Hopkins University School of Medicine in USA (Ivan Borrello)

Universitätsmedizin der Johannes Gutenberg-Universität Mainz (Hakim Echchannaoui)

Division of Biostatistics in the German Cancer Research Center DKFZ (Axel Benner)

Division of Applied Bioinformatics in the German Cancer Research Center DKFZ (Benedikt Brors)

Universitätsklinikums Erlangen (AG Bruns)

EMBL (Genomics and Proteomics Core Facilities)

University of Navarra (Bruno Paiva)

The Multiple Myeloma Research Foundation in USA (MMRF)

Selected Publication

K. Kriegsmann, M.-A. Baertsch, M.H.S. Awwad, M. Merz, D. Hose, A. Seckinger, A. Jauch, N. Becker, A. Benner, M.S. Raab, J. Hillengass, U. Bertsch, J. Dürig, H.J. Salwender, M. Hänel, R. Fenk, M. Munder, K. Weisel, C. Müller-Tidow, H. Goldschmidt, M. Hundemer, Cereblon-binding proteins expression levels correlate with hyperdiploidy in newly diagnosed multiple myeloma patients, Blood Cancer J. 9 (2019)

K. Kriegsmann, M. Kriegsmann, M. Cremer, M. Schmitt, P. Dreger, H. Goldschmidt, C. Müller-Tidow, M. Hundemer, Cell-based immunotherapy approaches for multiple myeloma, Br. J. Cancer 120 (2019)

M.H.S. Awwad, K. Kriegsmann, J. Plaumann, M. Benn, J. Hillengass, M.S. Raab, U. Bertsch, M. Munder, K. Weisel, H.J. Salwender, M. Hänel, R. Fenk, J. Dürig, C. Müller-Tidow, H. Goldschmidt, M. Hundemer, The prognostic and predictive value of IKZF1 and IKZF3 expression in T-cells in patients with multiple myeloma, Oncoimmunology 7 (2018)

J. Plaumann, M. Engelhardt, M.H.S. Awwad, H. Echchannaoui, E. Amman, M.S. Raab, J. Hillengass, N. Halama, B. Neuber, C. Müller-Tidow, H. Goldschmidt, M. Hundemer, IL-10 inducible CD8+ regulatory T-cells are enriched in patients with multiple myeloma and impact the generation of antigen-specific T-cells, Cancer Immunol. Immunother. 67 (2018)

B. Neuber, J. Dai, W.A. Waraich, M.H.S. Awwad, M. Engelhardt, M. Schmitt, S. Medenhoff, M. Witzens-Harig, A.D. Ho, H. Goldschmidt, M. Hundemer, Lenalidomide overcomes the immunosuppression of regulatory CD8+CD28- T-cells, Oncotarget 8 (2017)

A. Seckinger, J.A. Delgado, S. Moser, L. Moreno, B. Neuber, A. Grab, S. Lipp, J. Merino, F. Prosper, M. Emde, C. Delon, M. Latzko, R. Gianotti, R. Lüoend, R. Murr, R.J. Hosse, L.J. Harnisch, M. Bacac, T. Fauti, C. Klein, A. Zabaleta, J. Hillengass, E.A. Cavalcanti-Adam, A.D. Ho, M. Hundemer, J.F. San Miguel, K. Strein, P. Umaña, D. Hose, B. Paiva, M.D. Vu, Target Expression, Generation, Preclinical Activity, and Pharmacokinetics of the BCMA-T Cell Bispecific Antibody EM801 for Multiple Myeloma Treatment, Cancer Cell 31 (2017) 

 I. Krämer, M. Engelhardt, S. Fichtner, B. Neuber, S. Medenhoff, U. Bertsch, J. Hillengass, M.-S. Raab, D. Hose, A.D. Ho, H. Goldschmidt, M. Hundemer, Lenalidomide enhances myeloma-specific T-cell responses in vivo and in vitro, Oncoimmunology 5 (2016)

 S. Fichtner, D. Hose, M. Engelhardt, T. Meißner, B. Neuber, F. Krasniqi, M. Raab, S. Schönland, A.D. Ho, H. Goldschmidt, M. Hundemer, Association of antigen-specific T-cell responses with antigen expression and immunoparalysis in multiple myeloma, Clin. Cancer Res. 21 (2015)

M. Munder, M. Engelhardt, D. Knies, S. Medenhoff, G. Wabnitz, C. Luckner-Minden, N. Feldmeyer, R.-H. Voss, P. Kropf, I. Müller, R. Conradi, Y. Samstag, M. Theobald, A.D. Ho, H. Goldschmidt, M. Hundemer, Cytotoxicity of tumor antigen specific human T cells is unimpaired by arginine depletion, PLoS ONE 8 (2013)