Suppressive effects of vitamin C-treated induced-regulatory T cells on heart allograft rejection under vitamin C-deficient or -sufficient conditions.

Ju Hee Hwang,Kwon Ik Oh,Sun-Kyung Lee,Honglin Piao,Joon Young Jang,Ji-Jing Yan,Gwang-Min Lee,Dongkyu Han,Cheolhyeon Go,Jaeseok Yang,Yejin Kim,Jae Seung Kang,Paolo Fiorina

doi:10.1371/journal.pone.0246967

Ju Hee Hwang, Kwon Ik Oh + Show 11 more

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https://doi.org/10.1371/journal.pone.0246967

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Abstract

Foxp3 stability of vitamin C-treated induced-regulatory T cells (V-iTregs) is superior to that of conventional iTregs (C-iTregs). However, the role of V-iTregs in allograft rejection under vitamin C-deficient conditions, such as those seen in humans, remains unclear. We aimed to elucidate the role of vitamin C treatment on generation and maintenance of iTregs from gulo knockout (Gulo-KO) mice as well as wild type (WT) mice, and in vitro and in vivo suppressive effects of V-iTregs on heart allograft rejection in either Gulo-KO or WT recipient mice. Conversion efficiency of iTregs was similar between C- and V-iTregs in both WT and Gulo-KO mice. V-iTregs from WT or Gulo-KO mice showed better in vitro Foxp3 stability than C-iTregs, although there was no difference between WT V-iTregs and Gulo-KO V-iTregs. Furthermore, V-iTregs from WT or Gulo-KO mice suppressed in vitro T cell proliferation better than C-iTregs. Heterotrophic heart transplantation from BALB/c mice to WT or vitamin C-deficient Gulo-KO C57BL/6J mice was performed following adoptive transfer of C- or V-iTregs. V-iTregs as well as C-iTregs prolonged heart allograft survival in WT and Gulo-KO mice. However, there was no difference between the C- and V-iTreg groups. Supplementation of low- or high-dose vitamin C did not induce significant changes in heart allograft survival in Gulo-KO recipients that had received V-iTregs. In conclusion, V-iTregs do not exert better suppressive effects on heart allograft survival than C-iTregs in either WT or vitamin C-deficient recipients.

Highlights

Regulatory T cells (Tregs) play an important role in the induction and maintenance of transplantation tolerance as well as maintenance of self-tolerance, and infusion of Tregs has been shown to suppress allograft rejection [1,2,3]
The current study investigated the role of vitamin C treatment on generation and maintenance of induced Tregs (iTregs) from gulo knockout (Gulo-KO) mice as well as wild type (WT) mice, and in vitro and in vivo suppressive effects of V-iTregs on heart allograft rejection in either Gulo-KO or WT recipient mice
The results of the current study indicated that V-iTregs from WT or Gulo-KO mice displayed better in vitro stability and suppressive activity than C-iTregs

Summary

Introduction

Regulatory T cells (Tregs) play an important role in the induction and maintenance of transplantation tolerance as well as maintenance of self-tolerance, and infusion of Tregs has been shown to suppress allograft rejection [1,2,3]. Non-regulatory T cells can be converted to Tregs in vitro under specific conditions, such as T cell receptor stimulation along with interleukin-2 (IL-2) and transforming growth factor-β (TGF-β) [6,7,8,9] The benefit of these induced Tregs (iTregs) is that much higher yields can be achieved compared with nTreg. Following conversion, these iTregs may lose Foxp expression, which is the factor that determines Treg lineage as well as their suppressive function [7,8,10,11,12]. The superiority of the suppressive effects exerted by V-iTregs on vascularized allograft rejection, over those exerted by C-iTregs remains unproven

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