The role of mTOR activation in steroid-resistant asthma: insights from particulate matter-induced mouse model and patient studies.

Particulate matter (PM) exposure has been proposed as one of the causes of steroid resistance. However, studies investigating this using patient samples or animals are still lacking. Therefore, in this study, we aimed to investigate the changes in cytokines and mTOR (mammalian target of rapamycin) activation in patients with steroid resistant asthma and the role of mTOR in a mouse model of steroid resistant asthma induced by PM. In mouse experiment, on administering PM10 and allergen (Dp) through the intranasal route for 3 weeks, airway hyperresponsiveness (AHR), eosinophils, and airway inflammation were increased. However, administering rapamycin (mTOR inhibitor) together with PM and Dp led to significant decrease in all of the abovementioned features; additionally, the population of IL-13 + or IL-17 + cells in CD62^lowCD44^high subset of CD4 + T cells, which serves as an effector/memory cell marker, showed a significant decrease when compared to the group that received PM and Dp. When Dp was administered once after a rest period, the mice exposed to PM and Dp exhibited resurgence in asthma features and elevated effector/memory IL-13 + or IL-17 + cell populations. Rapamycin administration inhibited this effect. In human PBMC, in the steroid Non-Responder (NR) group, cytokines with p-mTOR double-positive population of effector/memory CD4 T cells (CCR7-CD45RA-CD4 + in CD62-CD27-CD45RO+) was significantly higher than that of the Normal or steroid Responder (R) groups. These data demonstrates that rapamycin can inhibit asthmatic features in mouse model of PM induced steroid-resistant asthma. And we suggest that rapamycin could act on effector/memory CD4 + T cells through in vitro and patient sample experiments.