Spike gene variability in porcine epidemic diarrhea virus as a determinant for virulence

Porcine epidemic diarrhea virus (PEDV) is a pathogenic coronavirus that targets the swine intestinal tract, leading to acute diarrhea and high mortality in neonatal piglets. PEDV is categorized into different genotypes based on genetic variations, especially in the spike (S) gene. The S protein is crucial for viral entry and a major immune target. Significant differences in virulence have been observed among PEDV genotypes, particularly between classical strains and newly emerging strains. In this study, we explored the impact of spike gene variability on PEDV pathogenicity. Using targeted RNA recombination, we generated recombinant PEDV (rPEDV) variants carrying spike genes from contemporary strains (moderately virulent strain UU and highly virulent strain GDU), all within the genetic background of the avirulent DR13 vaccine strain. Pathogenicity was assessed in 3-day-old piglets. The rPEDV carrying the DR13 spike gene was nonpathogenic, with no detectable viral RNA in feces. The rPEDV with the UU spike gene induced mild to severe diarrhea, with moderate viral shedding but no mortality. Conversely, the rPEDV with the GDU spike gene caused severe diarrhea, high viral titers, and high mortality. These findings highlight the critical role of the spike protein in PEDV virulence, informing future development of effective control strategies, including the design of live-attenuated vaccines.