Kidney-induced systemic tolerance of heart allografts in mice
Chao Yang, Jifu Ge, Ivy Rosales, Qing Yuan, Edward Szuter, Ellen Acheampong, Paul S. Russell, Joren C. Madsen, Robert B. Colvin, Alessandro Alessandrini
Chao Yang, Jifu Ge, Ivy Rosales, Qing Yuan, Edward Szuter, Ellen Acheampong, Paul S. Russell, Joren C. Madsen, Robert B. Colvin, Alessandro Alessandrini
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Research Article Transplantation

Kidney-induced systemic tolerance of heart allografts in mice

Abstract

In swine and nonhuman primates, kidney allografts can induce tolerance of heart allografts, leading to their long-term, immunosuppression-free survival. We refer to this phenomenon as kidney-induced cardiac allograft tolerance (KICAT). In this study, we have developed a murine model for KICAT to determine the underlining cellular/molecular mechanisms. Here, we show that spontaneously accepted DBA/2J kidneys in C57BL/6 recipients induce systemic tolerance that results in the long-term acceptance of DBA/2J heart allografts but not third-party cardiac allografts. The state of systemic tolerance of hearts was established 2 weeks after transplantation of the kidney, after which time, the kidney allograft is no longer required. Depletion of Foxp3+ T cells from these mice precipitated rejection of the heart allografts, indicating that KICAT is dependent on Treg function. Acceptance of kidney allografts and cotransplanted heart allografts did not require the thymus. In conclusion, these data show that kidney allografts induce systemic, donor-specific tolerance of cardiac allografts via Foxp3 cells, and that tolerance is independent of the thymus and continued presence of the kidney allograft. This experimental system should promote increased understanding of the tolerogenic mechanisms of the kidney.

Authors

Chao Yang, Jifu Ge, Ivy Rosales, Qing Yuan, Edward Szuter, Ellen Acheampong, Paul S. Russell, Joren C. Madsen, Robert B. Colvin, Alessandro Alessandrini

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Figure 3

Effect of kidney graftectomy on cardiac graft survival.

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Effect of kidney graftectomy on cardiac graft survival. (A and B) Schema...
(A and B) Schematic representation of experimental design in assessing the influence of kidney graftectomy on cardiac graft survival. DBA/2 kidneys were first transplanted into unilaterally nephrectomized B6 recipients; 7 (group A) or 14 (group B) days later, kidney allografts were removed and recipients received cervical DBA/2 heart transplants. Survival of cardiac grafts was monitored by assessing the cardiac impulse. (B) To determine if systemic tolerance is maintained long term after the removal of the kidney allograft, transplantation of heart allografts was delayed 14 days after kidney transplants were removed. Survival of cardiac grafts was similarly monitored by assessing palpations (group C). (C) Survival curves of cardiac allografts in each experimental group described in A and B (group A, kidney allograft removed 7 days after transplant, n = 6; group B, kidney allograft removed 14 days after transplant, n = 7; group C, kidney allograft removed 14 days after transplant, and heart allograft transplanted 14 days after that, n = 3). Graft survival curves were constructed by the Kaplan-Meier method. ****P < 0.0001, log-rank test. (D) H&E and Foxp3 staining of DBA/2 kidney allografts isolated on day 6, 8, 13, and 16 after transplantation. TOLS formation is observed within the kidney allograft between 13 and 16 days. Original magnification, ×400.