Evidence of the immunomodulatory role of dual PI3K/mTOR inhibitors in transplantation: an experimental study in mice

The PI3K/mTOR signaling cascade is fundamental in T‐cell activation and fate decisions. We showed the distinct regulation of PI3K/mTOR in regulatory and effector T‐cells and proposed the potential therapeutic benefit of targeting this pathway to control the balance between effector and regulatory T‐cell activities. Substantial adverse effects in long‐term clinical usage of rapamycin suggest the use of alternative treatments in restraining effector T‐cell function in transplant patients. We hypothesize that dual PI3K/mTOR inhibitors may represent an immunosuppressant alternative. Here we show that dual PI3K/mTOR PI‐103 and PKI‐587 inhibitors interfered IL‐2‐dependent responses in T‐cells. However, in contrast to the inhibitory effects in non‐Treg T‐cell proliferation and effector functions, dual inhibitors increased the differentiation, preferential expansion, and suppressor activity of iTregs. Rapamycin, PI‐103, and PKI‐587 targeted different signaling events and induced different metabolic patterns in primary T‐cells. Similar to rapamycin, in vivo administration of PI‐103 and PKI‐587 controlled effectively the immunological response against allogeneic skin graft. These results characterize specific regulatory mechanisms of dual PI3K/mTOR inhibitors in T‐cells and support their potential as a novel therapeutic option in transplantation.