In vivo application of RNA leads to induction of specific cytotoxic T lymphocytes and antibodies

To study the efficiency of RNA-based vaccines, RNA coding for the model antigen β-galactosidase (β-gal) was transcribed in vitro from a lacZ gene flanked by stabilizing Xenopus laevis β-globin 5' and 3' sequences and was protected from RNase degradation by condensation with the polycationic peptide protamine. The liposome-encapsulated condensed RNA-peptide complex, the condensed RNA-peptide complex without liposome or naked, unprotected RNA, was injected into BALB / c (H-2^d) mice. All preparations led to protein expression in the local tissue, activation of L^d-restricted specific cytotoxic T lymphocytes (CTL) and production of IgG antibodies reactive against β-gal. RNA-triggered CTL were as efficient in the lysis of lacZ-transfected target cells as CTL triggered by a lacZ-DNA eukaryotic expression vector. Immunization with RNA transcribed from a cDNA library from the β-gal-expressing cell line P13.1 again led to β-gal-specific CTL and IgG induction. Thus, both naked and protected RNA can be used to elicit a specific immune response in vivo, whereby the protected RNA is stable in vitro for a longer period of time. RNA vaccines can be produced in high amounts and have the same major advantages as DNA vaccines but lack the potentially harmful effect of DNA integration into the genome.