The composition of the microbiota modulates allograft rejection
Yuk Man Lei, Luqiu Chen, Ying Wang, Andrew T. Stefka, Luciana L. Molinero, Betty Theriault, Keston Aquino-Michaels, Ayelet S. Sivan, Cathryn R. Nagler, Thomas F. Gajewski, Anita S. Chong, Caroline Bartman, Maria-Luisa Alegre
Yuk Man Lei, Luqiu Chen, Ying Wang, Andrew T. Stefka, Luciana L. Molinero, Betty Theriault, Keston Aquino-Michaels, Ayelet S. Sivan, Cathryn R. Nagler, Thomas F. Gajewski, Anita S. Chong, Caroline Bartman, Maria-Luisa Alegre
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Concise Communication Immunology

The composition of the microbiota modulates allograft rejection

Abstract

Transplantation is the only cure for end-stage organ failure, but without immunosuppression, T cells rapidly reject allografts. While genetic disparities between donor and recipient are major determinants of the kinetics of transplant rejection, little is known about the contribution of environmental factors. Because colonized organs have worse transplant outcome than sterile organs, we tested the influence of host and donor microbiota on skin transplant rejection. Compared with untreated conventional mice, pretreatment of donors and recipients with broad-spectrum antibiotics (Abx) or use of germ-free (GF) donors and recipients resulted in prolonged survival of minor antigen–mismatched skin grafts. Increased graft survival correlated with reduced type I IFN signaling in antigen-presenting cells (APCs) and decreased priming of alloreactive T cells. Colonization of GF mice with fecal material from untreated conventional mice, but not from Abx-pretreated mice, enhanced the ability of APCs to prime alloreactive T cells and accelerated graft rejection, suggesting that alloimmunity is modulated by the composition of microbiota rather than the quantity of bacteria. Abx pretreatment of conventional mice also delayed rejection of major antigen–mismatched skin and MHC class II–mismatched cardiac allografts. This study demonstrates that Abx pretreatment prolongs graft survival, suggesting that targeting microbial constituents is a potential therapeutic strategy for enhancing graft acceptance.

Authors

Yuk Man Lei, Luqiu Chen, Ying Wang, Andrew T. Stefka, Luciana L. Molinero, Betty Theriault, Keston Aquino-Michaels, Ayelet S. Sivan, Cathryn R. Nagler, Thomas F. Gajewski, Anita S. Chong, Caroline Bartman, Maria-Luisa Alegre

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Figure 2

GF mice display prolonged skin graft survival.

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GF mice display prolonged skin graft survival. (A) Schematics of transpl...
(A) Schematics of transplantation in the gnotobiotic facility. (B) B6 female SPF, GF, and GF mice gavaged with PBS-diluted fecal material from SPF mice (GF-SPF.F) or Abx-pretreated SPF mice (GF-Abx.F) 5 to 7 days prior, were transplanted with male skin grafts from the indicated donors. SPF → SPF, n = 8; GF → GF, n = 8; GF → SPF, n = 11; GF-SPF.F → GF-SPF.F, n = 10; GF-Abx.F → GF-Abx.F, n = 7. log-rank test. (C) Representative cecum appearance at day 7 after gavage. (D) qPCR of 16S rRNA gene to assess bacterial load in SPF, GF, and GF-Abx.F mice before and after gavage. n = 3–5. One-way ANOVA. (E) Normalized abundance of B. coccoides and Lactobacillus spp. as determined by qPCR in feces of SPF, 10-day Abx-treated SPF mice, and GF-Abx.F mice after fecal gavage. n = 3–5. One-way ANOVA. Data are representative of 2 experiments (DF) or combined from 2 to 3 experiments (B). (B and E) Data represent the mean ± SEM. *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001.