DNA vaccines encoding viral glycoproteins induce nonspecific immunity and mr protein synthesis in fish

Protective immunity by vaccination with plasmid DNA encoding a viral glycop rotein (G) has long been assumed to result from the induction of a specific immune response. We report here that the initial protection may be due to the induction of alpha/beta interferon, with long-term protection due to a specific response to the encoded viral G, DNA vaccines encoding the Gs of t hree serologically unrelated fish rhabdoviruses were used to vaccinate rain bow trout against a lethal challenge with infectious hematopoietic necrosis virus (IHNV). All three vaccines, each encoding the G gene of either IHNV (IHNV-G), snakehead rhabdovirus (SHRV) (SHRV-G), or spring viremia of carp virus (SVCV) (SVCV-G), elicited protective immunity against IHNV, Vaccinate d fish were challenged at 30 or 70 days postvaccination with lethal doses o f IHNV. At 30 days postvaccination, only 5% of fish that had received any o f the G vaccines died, whereas more than 50% of the control fish succumbed to virus challenge. When fish were vaccinated and challenged at 70 days pos tvaccination, only 12% of the IHNV-G-vaccinated fish died compared to 68% f or the SHRV-G- and 76% for the SVCV-G-vaccinated fish, Assays for trout Mr protein, an indicator of alpha/beta interferon induction, shelved that only fish vaccinated with a G containing plasmid produced high levels of Mx pro tein in the kidneys and liver. Interestingly, at day 7 after virus challeng e, all of the fish vaccinated with the IHNV-G plasmid were negative for Mr, but the SHRV-G- and SVCV-G-vaccinated fish still shelved detectable levels of Mx. These results suggest that DNA vaccines in fish induce an early, no nspecific antiviral protection mediated by an alpha/beta interferon and, la ter, a specific immune response.