Nonobese diabetic (NOD) mice develop T cell-dependent autoimmune disease. Administration of interleukin-4 (IL-4), one of the T helper 2 (Th2) cytokines, is reported to prevent either insulitis or diabetes or both in NOD mice. We examined the effect of transferring an IL-4-expressing plasmid vector into muscle by in vivo electroporation on the progression of diabetes in NOD mice. Plasmid DNA expressing murine IL-4 (pCAGGS-IL-4) was introduced into the muscles of 4- and 6-week-old female NOD mice using an in vivo electroporation technique we developed previously. The serum IL-4 levels reached 2000-8000 pg/ml 3 days after the delivery of pCAGGS-IL-4 and remained detectable (>5 pg/ml) for over 4 weeks. In contrast to the previous reports, 88% of the mice treated with pCAGGS-IL-4 developed overt diabetes by 30 weeks of age, while only 25% of nontreated mice and 19% of the mice treated with control pCAGGS developed overt diabetes by then (p<0.01). Therefore, highly expressed IL-4 introduced by in vivo electroporation may have caused a Th1 shift, resulting in the promotion of diabetes in NOD mice. The high serum concentration of cytokines attained by our method is likely to unveil previously unknown cytokine functions.