Lab News

09.02.2024 Anna Ehret, Marissa Russ, Vincent Idstein, Claudia Juraske and Wolfgang Schamel contribute to the study "OptoREACT: Optogenetic Receptor Activation on Nonengineered Human T Cells" published by our dear collaborators from the Weber group! Many, many congratulations to all authors involved! doi.org/10.1021/acssynbio.3c00518

02.02.2024 Marina Zintchenko and Susana Minuet contribute to the study "Mutation-specific CAR T cells as precision therapy for IGLV3-21R110 expressing high-risk chronic lymphocytic leukemia". We congratulate all authors for putting together such a comprehensive and beautiful study!! https://pubmed.ncbi.nlm.nih.gov/38307904/

25.01.2024 Anna-Maria Schaffer publishes her paper: Kidins220 regulates the development of B cells bearing the λ light chain. Many, many congratulations to you and all involved on this beautiful story! https://pubmed.ncbi.nlm.nih.gov/38271217/

more news

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Membranes and protein–lipid interactions in signalling

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Cancer Immunotherapy

Cancer Immunotherapy is a very innovative and powerful approach to utilize the capabilities of the immune system to fight against cancers. Our expertise in studying the functions of the TCR can now be used to optimize strategies for such therapeutical approaches. We follow two lines of research:

1) We are part of the EU consortium EN-ACT2ING and will develop novel chimeric antigen receptors to be used in adoptive T cell therapies against hematopoietic cancers. For more information please visit: www.enacti2ng-itn.cbm.uam.es/index.php

2) We are collaborating with TCR2 Therapeutics Inc., an immuno-oncology company located in Cambridge, Massachusetts to apply our detailed insight into the TCR structure and functioning to support development of novel engineered T cell therapies. For more information please visit www.tcr2.com.

References

Juraske C, Krissmer SM, Teuber ES, Parigiani MA, Strietz J, Wesch D, Kabelitz D, Minguet S & Schamel WW (2024) Reprogramming of human γδ T cells by expression of an anti-CD19 TCR fusion construct (εTRuC) to enhance tumor killing. J Leukoc Biol 115: 293-305

Velasco Cárdenas RM, Brandl SM, Meléndez AV, Schlaak AE, Buschky A, int. al, Bengsch B, Schamel WW*, Minguet S* (2023) Harnessing CD3 diversity to optimize CAR T cells. Nat Immunol 24: 2135-2149. * co-last authors

Hartl FA, Beck-Garcìa E, Woessner NM, Flachsmann LJ, Cárdenas RMV, Brandl SM, Taromi S, Fiala GJ, int. al, Günther S, Schamel WW*, Minguet S* (2020) Noncanonical binding of Lck to CD3ε promotes TCR signaling and CAR function. Nat Immunol 21: 902-913. * co-last authors

Baeuerle PA, Ding J, Patel E, Thorausch N, Horton H, Gierut J, Scarfo I, Choudhary R, Kiner O, Krishnamurthy J, et al (2019) Synthetic TRuC receptors engaging the complete T cell receptor for potent anti-tumor response. Nat Commun 10: 2087

Juraske C, Wipa P, Morath A, Hidalgo JV, Hartl FA, Raute K, Oberg HH, Wesch D, Fisch P, Minguet S, Pongcharoen S, Schamel WW (2018) Anti-CD3 Fab Fragments Enhance Tumor Killing by Human γδ T Cells Independent of Nck Recruitment to the γδ T Cell Antigen Receptor. Front Immunol 9: 1579.

Dopfer EP, Hartl FA, Oberg HH, int. al, Adams EJ, Minguet S, Wesch D, Fisch P, Schamel WW (2014) The CD3 conformational change in the γδ T cell receptor is not triggered by antigens but can be enforced to enhance tumor killing. Cell Rep 7: 1704-1715.