Peripheral tissues reprogram CD8+ T cells for pathogenicity during graft-versus-host disease
Pedro Santos e Sousa, Séverine Ciré, Thomas Conlan, Laura Jardine, Claire Tkacz, Ivana R. Ferrer, Cara Lomas, Sophie Ward, Heather West, Simone Dertschnig, Sven Blobner, Terry K. Means, Stephen Henderson, Daniel H. Kaplan, Matthew Collin, Vincent Plagnol, Clare L. Bennett, Ronjon Chakraverty
Pedro Santos e Sousa, Séverine Ciré, Thomas Conlan, Laura Jardine, Claire Tkacz, Ivana R. Ferrer, Cara Lomas, Sophie Ward, Heather West, Simone Dertschnig, Sven Blobner, Terry K. Means, Stephen Henderson, Daniel H. Kaplan, Matthew Collin, Vincent Plagnol, Clare L. Bennett, Ronjon Chakraverty
View: Text | PDF
Research Article Immunology Transplantation

Peripheral tissues reprogram CD8+ T cells for pathogenicity during graft-versus-host disease

Abstract

Graft-versus-host disease (GVHD) is a life-threatening complication of allogeneic stem cell transplantation induced by the influx of donor-derived effector T cells (TE) into peripheral tissues. Current treatment strategies rely on targeting systemic T cells; however, the precise location and nature of instructions that program TE to become pathogenic and trigger injury are unknown. We therefore used weighted gene coexpression network analysis to construct an unbiased spatial map of TE differentiation during the evolution of GVHD and identified wide variation in effector programs in mice and humans according to location. Idiosyncrasy of effector programming in affected organs did not result from variation in T cell receptor repertoire or the selection of optimally activated TE. Instead, TE were reprogrammed by tissue-autonomous mechanisms in target organs for site-specific proinflammatory functions that were highly divergent from those primed in lymph nodes. In the skin, we combined the correlation-based network with a module-based differential expression analysis and showed that Langerhans cells provided in situ instructions for a Notch-dependent T cell gene cluster critical for triggering local injury. Thus, the principal determinant of TE pathogenicity in GVHD is the final destination, highlighting the need for target organ–specific approaches to block immunopathology while avoiding global immune suppression.

Authors

Pedro Santos e Sousa, Séverine Ciré, Thomas Conlan, Laura Jardine, Claire Tkacz, Ivana R. Ferrer, Cara Lomas, Sophie Ward, Heather West, Simone Dertschnig, Sven Blobner, Terry K. Means, Stephen Henderson, Daniel H. Kaplan, Matthew Collin, Vincent Plagnol, Clare L. Bennett, Ronjon Chakraverty

×

Figure 3

Donor TE transcription conforms to a spatially diverse modular architecture.

Options: View larger image (or click on image) Download as PowerPoint
Donor TE transcription conforms to a spatially diverse modular architect...
(A) Correlation matrix depicting the association between individual gene modules defined by weighted gene coexpression network analysis–defined modules and the experimental groups (donor, syn-BMT, allo-BMT), GVHD subgroups (SLO, TO), and GVHD individual organs. Cell color and cell number indicate Pearson’s correlation coefficient and corresponding –log10(P value), respectively. (B) Bar graphs showing the mean eigengene expression in each of the tissues, for pan-allo-BMT (M7), pan-GVHD TO (M29), SLO-selective (M4), and tissue-specific modules (M5, M20, M23, M27, M28, M31). (C) Eigengene network constructed with Cytoscape, in which the nodes (circles) represent the gene modules (circle area proportional to the number of genes in the module) and the edges (lines) represent the correlation between each pair of modules (line thickness proportional to Pearson’s correlation coefficient; line transparency proportional to P value). The nodes are spatially arranged according to the adjacency between gene modules and the color of the nodes reflects the correlation between the modules and the group of tissues represented. Bl, blood; BM, bone marrow; BMT, BM transplantation; Der, dermis; Epi, epidermis; GVHD, graft-versus-host disease; IEL, intraepithelial lymphocyte; LN, lymph node; LP, lamina propria; SLO, secondary lymphoid organ; Sp, spleen; TO, target organ.