Host-versus-commensal immune responses participate in the rejection of colonized solid organ transplants
Isabella Pirozzolo, … , Anita S. Chong, Maria-Luisa Alegre
Isabella Pirozzolo, … , Anita S. Chong, Maria-Luisa Alegre
Published July 14, 2022
Citation Information: J Clin Invest. 2022;132(17):e153403. https://doi.org/10.1172/JCI153403.
View: Text | PDF
Research Article Immunology Article has an altmetric score of 144

Host-versus-commensal immune responses participate in the rejection of colonized solid organ transplants

Abstract

Solid organ transplantation is the preferred treatment for end-stage organ failure. Although transplant recipients take life-long immunosuppressive drugs, a substantial percentage of them still reject their allografts. Strikingly, barrier organs colonized with microbiota have significantly shorter half-lives than non-barrier transplanted organs, even in immunosuppressed hosts. We previously demonstrated that skin allografts monocolonized with the common human commensal Staphylococcus epidermidis (S.epi) are rejected faster than germ-free (GF) allografts in mice because the presence of S.epi augments the effector alloimmune response locally in the graft. Here, we tested whether host immune responses against graft-resident commensal microbes, including S.epi, can damage colonized grafts independently from the alloresponse. Naive hosts mounted an anticommensal T cell response to colonized, but not GF, syngeneic skin grafts. Whereas naive antigraft commensal T cells modestly damaged colonized syngeneic skin grafts, hosts with prior anticommensal T cell memory mounted a post-transplant immune response against graft-resident commensals that significantly damaged colonized, syngeneic skin grafts. Importantly, allograft recipients harboring this host-versus-commensal immune response resisted immunosuppression. The dual effects of host-versus-commensal and host-versus-allograft responses may partially explain why colonized organs have poorer outcomes than sterile organs in the clinic.

Authors

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

×

Figure 4

Host tissue-resident memory cells are sufficient to damage colonized, syngeneic skin grafts.

Options: View larger image (or click on image) Download as PowerPoint
Host tissue-resident memory cells are sufficient to damage colonized, sy...
(A) Trm cells isolated from the skin of mice that were immunized s.c. with S.epi one month earlier. Cells gated on CD45.2+CD8CD4+CD44+CD69+ (CD4+, left) or CD45.2+CD8+CD4CD44+CD103+ (CD8+, right) populations. Plots show fold change relative to naive mice (mean ± SEM) and include 3 independent experiments analyzed using Wilcoxon’s log-rank test. **P < 0.005. (B) Mice harboring anti-S.epi memory were injected i.p. with FTY720 on days –2, 0, 4, and 10 relative to transplantation with S.epi-monocolonized skin grafts. (C and D) Graft scores (C) and H&E-stained graft sections (D) from mice treated with FTY720 (purple line) compared with untreated controls shown in Figure 2C (dotted orange line). Black arrow denotes abnormal immune infiltrates around hair follicles, which were quantified by a blinded pathologist. Original magnification ×20. Part C incorporates 3 independent experiments. The area under the graft score curves was calculated for each individual mouse, and ANOVA with multiple comparisons was performed on these values. The curves were not statistically different. mem., memory; col., colonized; d, day.