Intrasplenic electro-transfer of IL-4 encoding plasmid DNA efficiently inhibits rat experimental allergic encephalomyelitis

Abstract

Most of the previous studies in which cytokine DNA plasmids were delivered by systemic administration exhibited only marginal therapeutic effects, if any, in the EAE model. One strategy to overcome this limitation would be to determine the optimal delivery route leading to significant beneficial effects both in early (prophylactic) and late (therapeutic) treatments. To address this issue, we directly compared the effects of intrasplenic (IS) and intramuscular (IM) electro-transfer of interleukin-4 (IL-4) DNA in the rat experimental allergic encephalomyelitis (EAE) model. In the preventive experiment, rats received IM (25 or 150 μg) or IS (25 μg) administration of IL-4 DNA followed by in vivo electroporation the day before MBP immunization. In the late treatment experiment, rats were treated with IM (150 μg) or IS (25 μg) administration of IL-4 DNA with electroporation 10 days after MBP immunization. As a control the same amount of vector DNA was used. Macroscopic analysis indicated that the onset of moderate to severe EAE in rats treated with IS transfer of 25 μg of IL-4 DNA was prevented on a significant level compared with IM 25 μg of the IL-4 DNA transfer group or the control group in the preventive experiments. More importantly, IS transfer of 25 μg of IL-4 DNA considerably suppressed the severity of EAE in late treatment experiments while IM transfer of 150 μg of IL-4 DNA had little effect. The MBP-specific expression of IFN-γ from stimulated splenocytes was considerably decreased by the IS IL-4 DNA transfer group both in the preventive and therapeutic experiments while IM transfer had this effect only in the preventive protocol. Histological analysis showed that spinal cord inflammation was considerably reduced in the IS IL-4 DNA transfer group. These data provide the first demonstration that IS electro-transfer of IL-4 DNA is more effective both in the prevention and modulation of EAE than IM transfer and that IS electro-gene transfer may present a new approach to cytokine therapy in autoimmune diseases.