Tregs from human blood differentiate into nonlymphoid tissue–resident effector cells upon TNFR2 costimulation
Mark Mensink, Lotte J. Verleng, Ellen Schrama, George M.C. Janssen, Rayman T.N. Tjokrodirijo, Peter A. van Veelen, Qinyue Jiang, M. Fernanda Pascutti, Marie-Louise van der Hoorn, Michael Eikmans, Sander de Kivit, Jannie Borst
Mark Mensink, Lotte J. Verleng, Ellen Schrama, George M.C. Janssen, Rayman T.N. Tjokrodirijo, Peter A. van Veelen, Qinyue Jiang, M. Fernanda Pascutti, Marie-Louise van der Hoorn, Michael Eikmans, Sander de Kivit, Jannie Borst
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Research Article Immunology

Tregs from human blood differentiate into nonlymphoid tissue–resident effector cells upon TNFR2 costimulation

Abstract

Tregs can facilitate transplant tolerance and attenuate autoimmune and inflammatory diseases. Therefore, it is clinically relevant to stimulate Treg expansion and function in vivo and to create therapeutic Treg products in vitro. We report that TNF receptor 2 (TNFR2) is a unique costimulus for naive, thymus-derived Tregs (tTregs) from human blood that promotes their differentiation into nonlymphoid tissue–resident (NLT-resident) effector Tregs, without Th-like polarization. In contrast, CD28 costimulation maintains a lymphoid tissue–resident (LT-resident) Treg phenotype. We base this conclusion on transcriptome and proteome analysis of TNFR2- and CD28-costimulated CD4+ tTregs and conventional T cells (Tconvs), followed by bioinformatic comparison with published transcriptomic Treg signatures from NLT and LT in health and disease, including autoimmunity and cancer. These analyses illuminate that TNFR2 costimulation promoted tTreg capacity for survival, migration, immunosuppression, and tissue regeneration. Functional studies confirmed improved migratory ability of TNFR2-costimulated tTregs. Flow cytometry validated the presence of the TNFR2-driven tTreg signature in effector/memory Tregs from the human placenta, as opposed to blood. Thus, TNFR2 can be exploited as a driver of NLT-resident tTreg differentiation for adoptive cell therapy or antibody-based immunomodulation in human disease.

Authors

Mark Mensink, Lotte J. Verleng, Ellen Schrama, George M.C. Janssen, Rayman T.N. Tjokrodirijo, Peter A. van Veelen, Qinyue Jiang, M. Fernanda Pascutti, Marie-Louise van der Hoorn, Michael Eikmans, Sander de Kivit, Jannie Borst

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Figure 7

TNFR2-costimulated tTregs acquire characteristics of Tregs in tumors and autoimmune lesions.

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TNFR2-costimulated tTregs acquire characteristics of Tregs in tumors and...
(A) GSEA showing enrichment of indicated published Treg gene signatures from tumors (41, 5254) in the transcriptomes of tTregs costimulated via TNFR2 or CD28 for 7 days (FDR < 0.05). (B) GSEA summary showing enrichment of published Treg gene signatures from tumors and autoimmune lesions (39, 41, 5260) in the transcriptome of TNFR2- or CD28-costimulated tTregs. Gene sets describing high or low expression in Tregs from indicated tissues are marked in red or blue, respectively. The first author of the corresponding reference is shown. Additional information is described in Supplemental Table 2. HCC, hepatocellular carcinoma; ICC, intrahepatic cholangiocarcinoma; SF, synovial fluid. (C) Gene sets comprising either high or low expression in Tregs in diseased NLT were compared to find overlap, generating 2 combined gene signatures. Selection of gene sets is shown in Supplemental Table 2. GSEA using the combined gene signatures is shown (FDR < 0.05). Leading edge genes are marked by dashed or dotted lines and visualized as STRING networks, including enriched biological processes according to GO/Reactome. STRING visualization of the TNFR2-enriched gene set was based on the top 150 genes of the leading edge. Disconnected nodes not associated with labeled processes are not shown. (D) Top left: Venn diagram showing unique and 86 overlapping highly expressed genes in Tregs in healthy (Figure 6C) versus diseased NLT. Top right: GSEA showing the NES of genes of the indicated Treg gene signatures in the transcriptomes of TNFR2- versus CD28-costimulated tTregs. Bottom: Visualization of the 86-gene common signature by STRING network analysis. Log2 fold changes are color coded.