Induction of Immunological Tolerance With In Vitro Generated Suppressive Donor Blood Monocytes.

Abstract

Our previous studies showed that incubation of dendritic cells (DCs) with the chemotherapeutic drug mitomycin C (MMC) renders them immunosuppressive. Donor-derived MMC-DCs injected into the recipient before transplantation prolonged heart allograft survival in rats. Whereas generation of DCs is labour-intensive, peripheral blood mononuclear cells (PBMCs) can be easily harvested. Here we analyse under which conditions DCs can be replaced by PBMCs and study their mode of action. When injected into rats, MMC-incubated donor PBMCs (MICs) strongly prolonged heart allograft survival. Removal of monocytes from PBMCs abrogated their suppressive effect, showing that monocytes are the active cell population. Suppression of rejection was donor-specific. Recipients treated with MICs showed an increased number of CD4+CD25+FoxP3+ Tregs in their peripheral blood and FoxP3-cell infiltration of heart allograft. Most important, tolerance could be transferred to syngeneic recipients with blood cells, whereas depletion of Tregs annihilated the effect. This argues for mediation of suppression by CD4+CD25+FoxP3+ Tregs. Cell culture studies showed that MMC-treated monocytes give rise to myeloid cells, which do neither resemble monocytes, nor DCs but show morphological and phenotypic similarities with monocytic myeloid-derived suppressor cells (MDSCs) occurring in some forms of cancer. Donor-derived MICs also prolonged kidney allograft survival in pigs. MICs were applied for the first time in a patient with therapy-resistant rejection of a haploidentical stem cell transplant, showing that they can be easily generated and used in humans. In conclusion, we describe here a simple method for in vitro generation of monocytic suppressor cells for potential use in clinical organ transplantation.