MRI-visible polymeric vector bearing CD3 single chain antibody for gene delivery to T cells for immunosuppression.

Gene therapy mediated by nonviral vectors provides great advantages over conventional drug therapy in inducing immunosuppression after organ transplantation, yet it was rarely reported because T cells are normally difficult to transfect. In this paper, a nonviral vector that effectively transports genes into T cells is developed by attaching a T cell specific ligand, the CD3 single chain antibody (scAb(CD3)), to the distal ends of poly(ethylene glycol)-grafted polyethylenimine (scAb(CD3)-PEG-g-PEI). This polymer was first complexed with superparamagnetic iron oxide nanoparticles (SPIONs) and was then used to condense plasmid DNA into nanoparticles with an ideally small size and low cytotoxicity. Based on a reporter gene assay, targeting ligand functionalization of the delivery agent leads to 16 fold of enhancement in the gene transfection level in HB8521 cells, a rat T lymphocyte line. This targeting event in cell culture was successfully imaged by MRI scan. Inspiringly, delivery of a therapeutic gene DGKalpha with our MRI-visible delivery agent was likewise efficient, resulting in a 43% inhibition in the stimulated proliferation of HB8521 cells as well as a 38% inhibition in the expression of a major functional cytokine interleukin-2 (IL-2), indicating the effective T cell anergy induced by gene therapy.