Spatially resolved immune exhaustion within the alloreactive microenvironment predicts liver transplant rejection.

Abstract: Allograft rejection is a frequent complication following solid organ transplantation, but defining specific immune subsets mediating alloimmunity has been elusive due to the scarcity of tissue in clinical biopsy specimens. Single cell techniques have emerged as valuable tools for studying mechanisms of disease in complex tissue microenvironments. Here, we developed a highly multiplexed imaging mass cytometry panel, single cell analysis pipeline, and semi-supervised immune cell clustering algorithm to study arc… Show more

“…In the programmed cell death protein 1:PD-L1 pathway, again using single-nucleotide polymorphism analysis, Shi et al found that the interplay between donor PD-L1 and recipient PD-1 regulated early rejection 65 . More recently, our group has observed that tissue-resident immune cells with exhaustion phenotype are highly predictive of acute T-cell–mediated rejection after LT and may be important mediators of response to treatment 66 . Collectively, these findings highlight the interplay between alloimmunity and immune checkpoint pathways, where promoting exhaustion through PD-1 signaling can downregulate effector T-cell function, thereby preventing acute rejection episodes.…”

Immune checkpoint inhibitors in liver transplantation: Current practice, challenges, and opportunities

“…In the programmed cell death protein 1:PD-L1 pathway, again using single-nucleotide polymorphism analysis, Shi et al found that the interplay between donor PD-L1 and recipient PD-1 regulated early rejection 65 . More recently, our group has observed that tissue-resident immune cells with exhaustion phenotype are highly predictive of acute T-cell–mediated rejection after LT and may be important mediators of response to treatment 66 . Collectively, these findings highlight the interplay between alloimmunity and immune checkpoint pathways, where promoting exhaustion through PD-1 signaling can downregulate effector T-cell function, thereby preventing acute rejection episodes.…”

Immune checkpoint inhibitors in liver transplantation: Current practice, challenges, and opportunities