Bcl10-controlled Malt1 paracaspase activity is key for the immune suppressive function of regulatory T cells

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作者
Marc Rosenbaum
Andreas Gewies
Konstanze Pechloff
Christoph Heuser
Thomas Engleitner
Torben Gehring
Lara Hartjes
Sabrina Krebs
Daniel Krappmann
Mark Kriegsmann
Wilko Weichert
Roland Rad
Christian Kurts
Jürgen Ruland
机构
[1] Technical University of Munich,Institute of Clinical Chemistry and Pathobiochemistry, TUM School of Medicine
[2] Technical University of Munich,TranslaTUM, Center for Translational Cancer Research
[3] German Cancer Consortium (DKTK),Research Unit Cellular Signal Integration, Helmholtz Zentrum München
[4] German Research Center for Environmental Health,Institute of Experimental Immunology
[5] Rheinische-Friedrichs-Wilhelms University of Bonn,School of Medicine, Institute of Virology
[6] Technical University of Munich,German Center for Infection Research (DZIF)
[7] Partner Site Munich,Institute of Molecular Oncology and Functional Genomics, TUM School of Medicine
[8] Technical University of Munich,Institute of Pathology
[9] University Hospital Heidelberg,Institute of Pathology
[10] Technical University of Munich,undefined
来源
Nature Communications | / 10卷
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摘要
Regulatory T cells (Tregs) have crucial functions in the inhibition of immune responses. Their development and suppressive functions are controlled by the T cell receptor (TCR), but the TCR signaling mechanisms that mediate these effects remain ill-defined. Here we show that CARD11-BCL10-MALT1 (CBM) signaling mediates TCR-induced NF-κB activation in Tregs and controls the conversion of resting Tregs to effector Tregs under homeostatic conditions. However, in inflammatory milieus, cytokines can bypass the CBM requirement for this differentiation step. By contrast, CBM signaling, in a MALT1 protease-dependent manner, is essential for mediating the suppressive function of Tregs. In malignant melanoma models, acute genetic blockade of BCL10 signaling selectively in Tregs or pharmacological MALT1 inhibition enhances anti-tumor immune responses. Together, our data uncover a segregation of Treg differentiation and suppressive function at the CBM complex level, and provide a rationale to explore MALT1 inhibitors for cancer immunotherapy.
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