Rhesus monocyte-derived dendritic cells modified to over-express TGF-beta1 exhibit potent veto activity.

BACKGROUND: The tolerogenic activity of allogeneic bone marrow cells (BMCs) associates with functional inactivation of alloreactive T cells and has been attributed to a veto effect. Studies in mice and rhesus monkeys indicated that the CD8alpha molecule expressed on a subpopulation of allogeneic BMCs is necessary to induce signal transduction within the BMCs to increase veto effector molecules such as transforming growth factor (TGF)-beta1. In vitro activation of alloreactive cytotoxic T-lymphocyte precursor enhances their susceptibility to veto-mediated functional inactivation by specific alloantigen-bearing BMCs. Accordingly, we examined a hypothesis that mature rhesus monkey (Rh) monocyte-derived dendritic cells (MDDCs) modified by gene transfer to over-express active TGF-beta1 might mediate veto activity without the need to express CD8alpha. METHODS: Rh MDDCs were modified by recombinant adenovirus (Ad) transduction and characterized by phenotype and functional studies. RESULTS: Rh MDDC transduction with Ad vectors using conventional methods was remarkably inefficient. However, a single-chain anti-CD40/soluble Coxsackie and adenovirus receptor-fusion protein (G28/sCAR) permitted high-efficiency transduction of Rh MDDCs by retargeting Ad to Rh MDDC CD40. Mature Rh MDDCs that were transduced to overexpress active TGF-beta1 (AdTGF-beta1 Rh MDDC) significantly suppressed alloimmune responses in [ H]thymidine uptake mixed leukocyte reaction assays. We showed by the carboxyfluorescein succinimidyl ester dilution method that allogeneic mature AdTGF-beta1 Rh MDDCs inhibited proliferation of CD4 and CD8 responder T cells. Notably, AdTGF-beta1 Rh MDDC abrogated alloimmune responses induced by control AdGFP Rh MDDC in an antigen-specific manner. CONCLUSIONS: These results suggest that nonhuman primate mature MDDCs can be genetically engineered to function as alloantigen-specific cellular immunosuppressants, an approach that has potential to facilitate induction of allograft tolerance in vivo.

Tolerance induced by anti-CD3 immunotoxin plus 15-deoxyspergualin associates with donor-specific indirect pathway unresponsiveness.

Peritransplant treatment with anti-CD3 immunotoxin plus deoxyspergualin induces tolerance to kidney allografts in most rhesus macaque recipients. Tolerant recipients maintain normal function for years without evidence of chronic rejection. Indirect alloantigen presentation is implicated in chronic rejection. Accordingly, we determined if anti-CD3 immunotoxin plus deoxyspergualin induced rejection-free tolerance associates with suppression of anti-donor indirect pathway responses. Tolerant recipients exhibited an early decrease in direct anti-donor responses with recovery to baseline levels by 3 years posttransplantation. In contrast, tolerant monkeys were unresponsive to donor antigens presented by the indirect pathway. Recipients that rejected their allografts retained vigorous direct and indirect anti-donor responses. Therefore, following temporary donor-specific hyporesponsiveness, direct responses recover in tolerant recipients >1.5 years after transplantation. However, tolerant recipients tested at 1.9-4 years posttransplant are specifically unresponsive to donor antigens presented by the indirect pathway. Thus, the rejection-free state of tolerant recipients may depend on mechanisms regulating indirect pathway responsiveness.