Background: Immature dendritic cells (DC), characterized by low expression of both major histocompatibility complex class II antigens and co-stimulatory molecules, can be instrumental in the induction of peripheral tolerance. Because nuclear factor (NF)-kappa B is central to DC maturation, the authors engineered DC with an adenoviral vector (Adv) encoding for a kinase-defective dominant negative form of IKK2 (dnIKK2) to block NF-kappa B activation and inhibit DC maturation.
Methods: DC were obtained by culturing bone marrow from Brown Norway (BN) rats with granulocyte-macrophage colony-stimulating factor and interleukin-4 for 11 days. To block NF-kappa B activation, at day 9, cells were transfected with AdV-dnIKK2. At day 11, cells were used as stimulators in primary mixed leukocyte reaction (MLR) with naive Lewis rat lymphocytes as responders. CD4+ T cells were purified from primary MLR and tested in secondary MLR with allogeneic mature DC and in co-culture MLR with naive lymphocytes. The tolerogenic potential of dnIKK2-DC was evaluated in vivo in a model of rat kidney allotransplantation.
Results: DnIKK2-DC were immature and lacked any allostimulatory activity. T cells preexposed to allogeneic dnIKK2-DC were hyporesponsive to a secondary stimulation with mature DC and acquired potent regulatory properties, inhibiting naive T-cell proliferation toward allogeneic stimuli. Pretransplant infusion of allogeneic donor dnIKK2-DC prolonged the survival of a kidney allograft from the same allogeneic donor, without the need for immunosuppressive therapy.
Conclusions: Allogeneic DC, rendered immature by dnIKK2 transfection, induce in vitro differentiation of naive T cells into CD4+ T-regulatory cells, effective at low ratios with target cells, rendering them applicable for cellular therapy of immune-mediated abnormalities and for preventing transplant rejection.