Background: In addition to their known antiviral and host defense functions, emerging evidence suggests that natural killer (NK) cells may influence allograft outcomes after solid organ transplantation. Although it is accepted that NK cells are activated in the absence of self-major histocompatibility complex (MHC) class I molecules, little is known of how NK cell dynamics change after transplantation of a MHC disparate lung allograft.
Materials and methods: To assess this, we characterized longitudinal changes in NK cell frequency and phenotype, using flow cytometry, both in the peripheral blood and lung allograft in 34 patients undergoing lung transplantation.
Results: NK cell frequency decreased with time from transplant with mature NK cells being replaced by a population of less differentiated NK cells expressing lower levels of killer cell immunoglobulin-like receptors. In contrast to peripheral blood, NK cells within the allograft consisted of a greater proportion of CD56 cells, expressed less killer cell immunoglobulin-like receptors, and demonstrated an activated phenotype. In clinically stable recipients, peripheral blood NK cells were not activated, however, this contrasted markedly with a small subset of patients experiencing acute allograft rejection or cytomegalovirus reactivation, whose NK cells demonstrated a more activated profile.
Conclusions: Our studies suggest that NK cells become activated after MHC-mismatched lung transplantation.