Intragraft memory-like CD127hiCD4+Foxp3+ Tregs maintain transplant tolerance
Yuanfei Zhao, Leigh Nicholson, Hannah Wang, Yi Wen Qian, Wayne J. Hawthorne, Elvira Jimenez-Vera, Brian S. Gloss, Joey Lai, Adwin Thomas, Yi Vee Chew, Heather Burns, Geoff Y. Zhang, Yuan Min Wang, Natasha M. Rogers, Guoping Zheng, Shounan Yi, Stephen I. Alexander, Philip J. O’Connell, Min Hu
Yuanfei Zhao, Leigh Nicholson, Hannah Wang, Yi Wen Qian, Wayne J. Hawthorne, Elvira Jimenez-Vera, Brian S. Gloss, Joey Lai, Adwin Thomas, Yi Vee Chew, Heather Burns, Geoff Y. Zhang, Yuan Min Wang, Natasha M. Rogers, Guoping Zheng, Shounan Yi, Stephen I. Alexander, Philip J. O’Connell, Min Hu
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Research Article Transplantation

Intragraft memory-like CD127hiCD4+Foxp3+ Tregs maintain transplant tolerance

Abstract

CD4+Foxp3+ regulatory T cells (Tregs) play an essential role in suppressing transplant rejection, but their role within the graft and heterogeneity in tolerance are poorly understood. Here, we compared phenotypic and transcriptomic characteristics of Treg populations within lymphoid organs and grafts in an islet xenotransplant model of tolerance. We showed Tregs were essential for tolerance induction and maintenance. Tregs demonstrated heterogeneity within the graft and lymphoid organs of tolerant mice. A subpopulation of CD127hi Tregs with memory features were found in lymphoid organs, presented in high proportions within long-surviving islet grafts, and had a transcriptomic and phenotypic profile similar to tissue Tregs. Importantly, these memory-like CD127hi Tregs were better able to prevent rejection by effector T cells, after adoptive transfer into secondary Rag–/– hosts, than naive Tregs or unselected Tregs from tolerant mice. Administration of IL-7 to the CD127hi Treg subset was associated with a strong activation of phosphorylation of STAT5. We proposed that memory-like CD127hi Tregs developed within the draining lymph node and underwent further genetic reprogramming within the graft toward a phenotype that had shared characteristics with other tissue or tumor Tregs. These findings suggested that engineering Tregs with these characteristics either in vivo or for adoptive transfer could enhance transplant tolerance.

Authors

Yuanfei Zhao, Leigh Nicholson, Hannah Wang, Yi Wen Qian, Wayne J. Hawthorne, Elvira Jimenez-Vera, Brian S. Gloss, Joey Lai, Adwin Thomas, Yi Vee Chew, Heather Burns, Geoff Y. Zhang, Yuan Min Wang, Natasha M. Rogers, Guoping Zheng, Shounan Yi, Stephen I. Alexander, Philip J. O’Connell, Min Hu

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Figure 2

Tregs expand in spleen and lymph nodes of transplant-tolerant mice during transplantation.

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Tregs expand in spleen and lymph nodes of transplant-tolerant mice durin...
(A) Confirmation of surface GFP expression representing intracellular Foxp3 expression in DEREG recipients. Representative pseudocolor plots of GFP versus Foxp3 (gated on CD4+ T cells) revealed that CD4+GFP+ T cells were CD4+Foxp3+ Tregs in the spleen, axillary lymph node (ALN), and draining LN (DLN) in the tolerant group at day 100 after transplantation. (B) The proportions of CD4+GFP+Foxp3+ Tregs within CD4+ T cells of the spleen, ALN, and DLN in tolerant group (n = 4–20), rejection group (n = 4–11) on day 8 and day 100 after transplantation, and control naive group (n = 4–16) by flow cytometry analysis. The comparison within the group between different time points is shown. A 1-way ANOVA was used. Data were from 4 independent experiments and shown as mean ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.