Induced regulatory T cells in allograft tolerance via transient mixed chimerism
Kiyohiko Hotta, Akihiro Aoyama, Tetsu Oura, Yohei Yamada, Makoto Tonsho, Kyu Ha Huh, Kento Kawai, David Schoenfeld, James S. Allan, Joren C. Madsen, Gilles Benichou, Rex-Neal Smith, Robert B. Colvin, David H. Sachs, A. Benedict Cosimi, Tatsuo Kawai
Kiyohiko Hotta, Akihiro Aoyama, Tetsu Oura, Yohei Yamada, Makoto Tonsho, Kyu Ha Huh, Kento Kawai, David Schoenfeld, James S. Allan, Joren C. Madsen, Gilles Benichou, Rex-Neal Smith, Robert B. Colvin, David H. Sachs, A. Benedict Cosimi, Tatsuo Kawai
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Research Article Immunology Transplantation

Induced regulatory T cells in allograft tolerance via transient mixed chimerism

Abstract

Successful induction of allograft tolerance has been achieved in nonhuman primates (NHPs) and humans via induction of transient hematopoietic chimerism. Since allograft tolerance was achieved in these recipients without durable chimerism, peripheral mechanisms are postulated to play a major role. Here, we report our studies of T cell immunity in NHP recipients that achieved long-term tolerance versus those that rejected the allograft (AR). All kidney, heart, and lung transplant recipients underwent simultaneous or delayed donor bone marrow transplantation (DBMT) following conditioning with a nonmyeloablative regimen. After DBMT, mixed lymphocyte culture with CFSE consistently revealed donor-specific loss of CD8+ T cell responses in tolerant (TOL) recipients, while marked CD4+ T cell proliferation in response to donor antigens was found to persist. Interestingly, a significant proportion of the proliferated CD4+ cells were FOXP3+ in TOL recipients, but not in AR or naive NHPs. In TOL recipients, CD4+FOXP3+ cell proliferation against donor antigens was greater than that observed against third-party antigens. Finally, the expanded Tregs appeared to be induced Tregs (iTregs) that were converted from non-Tregs. These data provide support for the hypothesis that specific induction of iTregs by donor antigens is key to long-term allograft tolerance induced by transient mixed chimerism.

Authors

Kiyohiko Hotta, Akihiro Aoyama, Tetsu Oura, Yohei Yamada, Makoto Tonsho, Kyu Ha Huh, Kento Kawai, David Schoenfeld, James S. Allan, Joren C. Madsen, Gilles Benichou, Rex-Neal Smith, Robert B. Colvin, David H. Sachs, A. Benedict Cosimi, Tatsuo Kawai

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Figure 7

TGF-β blockade inhibited Treg expansion and restored anti-donor CD8 responses.

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TGF-β blockade inhibited Treg expansion and restored anti-donor CD8 resp...
CD3+ cells isolated from 2 tolerant (TOL) recipients, M8014: d212 pBMT (A) and M8314: d252 pBMT (B), were labeled with CFSE and cultured with irradiated donor peripheral blood lymphocytes in the presence of anti–TGF-β (50 mg/ml) or isotype control monoclonal antibody (50 mg/ml) for 5 days. Cultured cells were then stained for CD4, CD8, and FOXP3. Although there was no difference in CD4+ T cell proliferation between anti–TGF-β and isotype control (A and B, left panels), TGF-β blockade inhibited the Treg expansion in the 2 TOL recipients (A and B, middle panels). Furthermore, inhibition of Treg expansion by anti–TGF-β blockade was associated with restoration of anti-donor CD8+ T cell responses in the 2 TOL recipients (A and B, right panels). pBMT, post bone marrow transplantation.