Attenuation of an original US porcine epidemic diarrhea virus strain PC22A via serial cell culture passage

Chun Ming Lin, Yixuan Hou, Douglas G. Marthaler, Xiang Gao, Xinsheng Liu, Lanlan Zheng, Linda J. Saif, Qiuhong Wang

Research output: Contribution to journalArticlepeer-review

29 Scopus citations


Although porcine epidemic diarrhea (PED) has caused huge economic losses in the pork industry worldwide, an effective live, attenuated vaccine is lacking. In this study, an original US, highly virulent PED virus (PEDV) strain PC22A was serially passaged in Vero CCL81 and Vero BI cells. The virus growth kinetics in cell culture, virulence in neonatal pigs and the whole genomic sequences of selected passages were examined. Increased virus titers and sizes of syncytia were observed at the 65th passage level (P65) and P120, respectively. Based on the severity of clinical signs, histopathological lesions and the distribution of PEDV antigens in the gut, the virulence of P100 and above, but not P95C13 (CCL81), was markedly reduced in 4-day-old, caesarian-derived, colostrum-deprived piglets. Subsequently, the attenuation of P120 and P160 was confirmed in 4-day-old, conventional suckling piglets. Compared with P120, P160 replicated less efficiently in the intestine of pigs and induced a lower rate of protection after challenge. Sequence analysis revealed that the virulent viruses [P3 and P95C13 (CCL81)] had one, one, sixteen (including an early termination of nine amino acids) and two amino acid differences in non-structure protein 1 (nsp1), nsp4, spike and membrane proteins, respectively, from the fully attenuated P160. However, the overall pattern of attenuation-related genetic changes in PC22A differed from those of the other four pairs of PEDV wild type strains and their attenuated derivatives. These results suggest that PEDV attenuation can occur through multiple molecular mechanisms. The knowledge provides insights into potential molecular mechanisms of PEDV attenuation.

Original languageEnglish (US)
Pages (from-to)62-71
Number of pages10
JournalVeterinary Microbiology
StatePublished - Mar 1 2017

Bibliographical note

Publisher Copyright:
© 2017 Elsevier B.V.


  • Attenuation
  • Cell culture adaptation
  • Genome
  • Porcine epidemic diarrhea virus
  • Sequence analysis


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