Synergistic inhibition of pseudorabies virus replication by porcine alpha/beta interferon and gamma interferon in vitro.

Interferon (IFN) is crucial for initiating the innate immune response and for the generation of the adaptive response. IFN, in most species, comprises IFN-alpha (IFN-alpha), IFN-beta (IFN-beta) and IFN-gamma (IFN-gamma). In this study, we compared the capacity of porcine IFN-alpha, -beta and -gamma, or a combination of them, to protect IBRS-2 cells (porcine kidney cells) from infection with pseudorabies virus (PRV). The results demonstrated that porcine IFN-beta (PoIFN-beta) was the most efficient of the three IFNs in conferring resistance PRV infection; 100 U/mL PoIFN-beta inhibited PRV plaque formation 5.3-fold. Compared with PoIFN-beta, porcine IFN-gamma (PoIFN-gamma) was less capable of inhibiting PRV plaque formation (3.3-fold inhibition). Porcine IFN-alpha (PoIFN-alpha) had the least capability of the three PoIFNs, and inhibited PRV plaque formation only 1.26-fold. The inhibitory capacity increased to only 2.3-fold with a treatment of 12,800 U/mL PoIFN-alpha. A combination of PoIFN-gamma and PoIFN-alpha or PoIFN-beta inhibited PRV plaque formation 12.8-fold or 100-fold, respectively. Treatment of IBRS-2 cells with PoIFN-alpha/beta and PoIFN-gamma inhibited PRV replication 29- or 146-fold. Additionally, real-time PCR analyses of the PRV immediate early (IE) gene revealed that IE mRNA expression was profoundly decreased in cells stimulated with PoIFN-alpha/beta and PoIFN-gamma (23.8-133.0-fold) compared with vehicle-treated cells. All the findings indicate that PoIFN-gamma acts synergistically with other PoIFNs (PoIFN-alpha and -beta) to potently inhibit PRV replication in vitro.