Involvement of Tumor Necrosis Factor Receptor Type II in FoxP3 Stability and as a Marker of Treg Cells Specifically Expanded by Anti–Tumor Necrosis Factor Treatments in Rheumatoid Arthritis

Objective To study the involvement of Treg cells expressing tumor necrosis factor receptor type II (TNFRII) in exerting control of inflammation in experimental models and in the response to anti‐TNF treatments in patients with rheumatoid arthritis (RA) or spondyloarthritis (SpA). Methods The role of...

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Published in:Arthritis & rheumatology (Hoboken, N.J.) N.J.), 2020-04, Vol.72 (4), p.576-587
Main Authors: Santinon, François, Batignes, Maxime, Mebrek, Majda Lyna, Biton, Jerôme, Clavel, Gaëlle, Hervé, Roxane, Lemeiter, Delphine, Breckler, Magali, Busato, Florence, Tost, Jorg, Ziol, Marianne, Boissier, Marie‐Christophe, Decker, Patrice, Semerano, Luca, Bessis, Natacha
Format: Article
Language:English
Subjects:
Adoptive transfer
Ankle
Arthritis
Biochemistry, Molecular Biology
Bisulfite
CD25 antigen
CD4 antigen
Cell activation
Cell proliferation
DNA methylation
Foxp3 protein
Gene expression
Genetics
Genomics
Hypersensitivity
Hypersensitivity (delayed)
Imiquimod
Inflammation
Inflammatory diseases
Life Sciences
Lymphocytes T
Necrosis
Receiving
Receptors
Rheumatic diseases
Rheumatoid arthritis
Skin
Stability analysis
Tumor necrosis factor
Tumor necrosis factor-TNF
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Summary:Objective To study the involvement of Treg cells expressing tumor necrosis factor receptor type II (TNFRII) in exerting control of inflammation in experimental models and in the response to anti‐TNF treatments in patients with rheumatoid arthritis (RA) or spondyloarthritis (SpA). Methods The role of TNFRII in Treg cells was explored using a multilevel translational approach. Treg cell stability was evaluated by analyzing the methylation status of the Foxp3 locus using bisulfite sequencing. Two models of inflammation (imiquimod‐induced skin inflammation and delayed‐type hypersensitivity arthritis [DTHA]) were induced in TNFRII−/− mice, with or without transfer of purified CD4+CD25+ cells from wild‐type (WT) mice. In patients with RA and those with SpA, the evolution of the TNFRII+ Treg cell population before and after targeted treatment was monitored. Results Foxp3 gene methylation in Treg cells was greater in TNFRII−/− mice than in WT mice (50% versus 36.7%). In cultured Treg cells, TNF enhanced the expression, maintenance, and proliferation of Foxp3 through TNFRII signaling. Imiquimod‐induced skin inflammation and DTHA were aggravated in TNFRII−/− mice (P < 0.05 for mice with skin inflammation and P < 0.0001 for mice with ankle swelling during DTHA compared to WT mice). Adoptive transfer of WT mouse Treg cells into TNFRII−/− mice prevented aggravation of arthritis. In patients with RA receiving anti‐TNF treatments, but not those receiving tocilizumab, the frequency of TNFRII+ Treg cells was increased at 3 months of treatment compared to baseline (mean ± SEM 65.2 ± 3.1% versus 49.1 ± 5.5%; P < 0.01). In contrast, in anti‐TNF–treated patients with SpA, the frequency of TNFRII+ Treg cells was not modified. Conclusion TNFRII expression identifies a subset of Treg cells that are characterized by stable expression of Foxp3 via gene hypomethylation, and adoptive transfer of TNFRII‐expressing Treg cells ameliorates inflammation in experimental models. Expansion and activation of TNFRII+ Treg cells may be one of the mechanisms by which anti‐TNF agents control inflammation in RA, but not in SpA.
ISSN:2326-5191
2326-5205
DOI:10.1002/art.41134