Skin-restricted commensal colonization accelerates skin graft rejection
Yuk Man Lei, … , Yasmine Belkaid, Maria-Luisa Alegre
Yuk Man Lei, … , Yasmine Belkaid, Maria-Luisa Alegre
Published July 16, 2019
Citation Information: JCI Insight. 2019;4(15):e127569. https://doi.org/10.1172/jci.insight.127569.
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Research Article Immunology Transplantation

Skin-restricted commensal colonization accelerates skin graft rejection

Abstract

Solid organ transplantation can treat end-stage organ failure, but the half-life of transplanted organs colonized with commensals is much shorter than that of sterile organs. Whether organ colonization plays a role in this shorter half-life is not known. We have previously shown that an intact whole-body microbiota can accelerate the kinetics of solid organ allograft rejection in untreated colonized mice, when compared with germ-free (GF) or with antibiotic-pretreated colonized mice, by enhancing the capacity of antigen-presenting cells (APCs) to activate graft-reactive T cells. However, the contribution of intestinal versus skin microbiota to these effects was unknown. Here, we demonstrate that colonizing the skin of GF mice with a single commensal, Staphylococcus epidermidis, while preventing intestinal colonization with oral vancomycin, was sufficient to accelerate skin graft rejection. Notably, unlike the mechanism by which whole-body microbiota accelerates skin graft rejection, cutaneous S. epidermidis did not enhance the priming of alloreactive T cells in the skin-draining lymph nodes. Rather, cutaneous S. epidermidis augmented the ability of skin APCs to drive the differentiation of alloreactive T cells. This study reveals that the extraintestinal donor microbiota can affect transplant outcome and may contribute to the shorter half-life of colonized organs.

Authors

Yuk Man Lei, Martin Sepulveda, Luqiu Chen, Ying Wang, Isabella Pirozzolo, Betty Theriault, Anita S. Chong, Yasmine Belkaid, Maria-Luisa Alegre

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Figure 3

Skin S. epidermidis colonization does not enhance the proliferation of alloreactive T cells in the skin-draining LNs.

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Skin S. epidermidis colonization does not enhance the proliferation of a...
(A and B) APCs from skin-draining LNs were isolated from male SPF, GF, or S. epidermidis–painted GF mice 10 days after initial painting and cultured with CFSE-labeled T cells from Marilyn females for 3 days, followed by flow cytometric analysis. (C and D) Congenic Marilyn T cells were labeled with CFSE and transferred into GF and S. epidermidis–painted GF recipients on the day of transplantation with male GF or GF plus S. epidermidis skin grafts. Mice were sacrificed 4 or 6 days after transplantation, and cells were isolated from the graft draining LNs for analysis of CFSE dilution. Representative plots (A and C) and quantitation of CFSE dilution (B and D) of divided Marilyn T cells. (B and D) Quantitation represents normalized data with normalization to the average of percentage of divided Marilyn T cells in GF mice within each experiment from 3–5 experiments with n = 2–4 mice per group. Data represent the mean ± SEM. Statistical analysis was done using the Kruskal-Wallis test for multiple comparisons. *P < 0.05.