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Treg-based immunotherapy for antigen-specific immune suppression and stable tolerance induction: a perspective.

Shimon SakaguchiRyoji KawakamiNorihisa Mikami
Published in: Immunotherapy advances (2023)
FoxP3-expressing regulatory T cells (Tregs), whether naturally generated in the immune system or unnaturally induced from conventional T cells (Tconvs) in the laboratory, have much therapeutic value in treating immunological diseases and establishing transplantation tolerance. Natural Tregs (nTregs) can be selectively expanded in vivo by administration of low-dose IL-2 or IL-2 muteins for immune suppression. For adoptive Treg cell therapy, nTregs can be expanded in vitro by strong antigenic stimulation in the presence of IL-2. Synthetic receptors such as CAR can be expressed in nTregs to equip them with a particular target specificity for suppression. In addition, antigen-specific Tconvs can be converted in vitro to functionally stable Treg-like cells by a combination of antigenic stimulation, FoxP3 induction, and establishment of the Treg-type epigenome. This review discusses current and prospective strategies for Treg-based immune suppression and the issues to be resolved for achieving stable antigen-specific immune suppression and tolerance induction in the clinic by targeting Tregs.
Keyphrases
  • regulatory t cells
  • cell therapy
  • low dose
  • dendritic cells
  • stem cells
  • mesenchymal stem cells
  • oxidative stress
  • bone marrow
  • stress induced