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Dysfunction of infiltrating cytotoxic CD8+ T cells within the graft promotes murine kidney allotransplant tolerance
Takahiro Yokose, Edward S. Szuter, Ivy Rosales, Michael T. Guinn, Andrew S. Liss, Taisuke Baba, David A. Ruddy, Michelle Piquet, Jamil Azzi, A. Benedict Cosimi, Paul S. Russell, Joren C. Madsen, Robert B. Colvin, Alessandro Alessandrini
Takahiro Yokose, Edward S. Szuter, Ivy Rosales, Michael T. Guinn, Andrew S. Liss, Taisuke Baba, David A. Ruddy, Michelle Piquet, Jamil Azzi, A. Benedict Cosimi, Paul S. Russell, Joren C. Madsen, Robert B. Colvin, Alessandro Alessandrini
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Research Article Immunology

Dysfunction of infiltrating cytotoxic CD8+ T cells within the graft promotes murine kidney allotransplant tolerance

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Abstract

Tolerance of mouse kidney allografts arises in grafts that develop regulatory tertiary lymphoid organs (rTLOs). Single-cell RNA-seq (scRNA-seq) data and adoptive transfer of alloreactive T cells after transplantation showed that cytotoxic CD8+ T cells are reprogrammed within the accepted graft to an exhausted/regulatory-like phenotype mediated by IFN-γ. Establishment of rTLOs was required because adoptive transfer of alloreactive T cells prior to transplantation results in kidney allograft rejection. Despite the presence of intragraft CD8+ cells with a regulatory phenotype, they were not essential for the induction and maintenance of kidney allograft tolerance since renal allotransplantation into CD8-KO recipients resulted in acceptance and not rejection. Analysis of scRNA-seq data from allograft kidneys and malignant tumors identified similar regulatory-like cell types within the T cell clusters and trajectory analysis showed that cytotoxic CD8+ T cells are reprogrammed into an exhausted/regulatory-like phenotype intratumorally. Induction of cytotoxic CD8+ T cell dysfunction of infiltrating cells appears to be a beneficial mechanistic pathway that protects the kidney allotransplant from rejection through a process we call “defensive tolerance.” This pathway has implications for our understanding of allotransplant tolerance and tumor resistance to host immunity.

Authors

Takahiro Yokose, Edward S. Szuter, Ivy Rosales, Michael T. Guinn, Andrew S. Liss, Taisuke Baba, David A. Ruddy, Michelle Piquet, Jamil Azzi, A. Benedict Cosimi, Paul S. Russell, Joren C. Madsen, Robert B. Colvin, Alessandro Alessandrini

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Figure 5

Reprogramming of donor-reactive T cells following adoptive transfer in the presence of an accepted kidney allograft.

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Reprogramming of donor-reactive T cells following adoptive transfer in t...
(A) Schematic of experimental design. (B) ELISPOT assay of donor-sensitized T cells prior to transfer (n = 3). Data represent the mean ± SD. (C) Frequency of CD8+ T cells in donor-sensitized T cells and levels of PD-1, CD122, Eomes, and Foxp3 expression in CD8+CD45.1+ donor-sensitized T cells prior to transfer. (D and E) Pathological findings of kidney allografts collected from recipient mice that underwent adoptive transfer (AT) after kidney transplantation (KTx) at 14 days after AT. H&E staining (D) and CD45.1 immunohistochemical staining (E). Scale bars: 100 μm. (F) Frequency of CD8+CD45.1+ T cells and CD8–CD45.1+ T cells in kidney, spleen, and lymph node (LN) obtained from recipients that underwent AT after KTx. (G) Frequency of the percentage of PD-1+ cells per CD8+CD45.1+ adoptively transferred cells and CD8+CD45.2+ recipient endogenous cells. Data in F and G are represented as mean ± SEM, compared by 1-way ANOVA with Tukey’s post hoc test for multiple comparisons.

Copyright © 2026 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)

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