Construction and evaluation of genetically engineered replication-defective porcine reproductive and respiratory syndrome virus vaccine candidates |
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Authors: | Welch Siao-Kun Wan Jolie Rika Pearce Douglas S Koertje William D Fuog Eric Shields Shelly L Yoo Dongwan Calvert Jay G |
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Affiliation: | Veterinary Medicine Biological Discovery, Pfizer Animal Health, Kalamazoo, MI 49009, USA. jenny_welch@pfizer.com |
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Abstract: | Porcine reproductive and respiratory syndrome virus (PRRSV) is an emerging pathogen causing significant economic losses in the swine industry worldwide. Two novel gene-deleted viruses were constructed and evaluated as vaccine candidates. Using the full-length infectious cDNA clone of North American PRRS isolate P129, the ORF2 and ORF4 genes (which encoded minor structural glycoproteins GP2a/2b and GP4, respectively) were individually deleted from the viral genome. Both deletion mutants were non-viable in MARC-145 cells and porcine alveolar macrophages, indicating that both genes are essential for virus replication. To rescue the replication-defective PRRSV, two complementing cell lines, MARC-2000 and MARC-400, were established to stably express the PRRSV GP2 and GP4 proteins, respectively. These cells were able to complement the deleted gene function of PRRSV in trans and supported production of the replication-defective DeltaORF2-PRRSV and DeltaORF4-PRRSV viruses. Both DeltaORF2-PRRSV and DeltaORF4-PRRSV viruses were propagated for 40-50 generations in the corresponding complementing cells and remained replication-defective in MARC-145 cells. To examine the immunogenic potential of the replication-defective PRRSV as vaccine candidates, four groups of pigs, 20 pigs per group, were immunized twice with DeltaORF2-PRRSV or DeltaORF4-PRRSV and challenged with the homologous virulent virus at 3 weeks post-immunization. In spite of the fact one group showed significant reduction in virus load, we could not demonstrate improvement from clinical diseases in this vaccination/challenge study. However, we did show that the cDNA clone of PRRSV can be a useful tool to genetically engineer PRRSV vaccine candidates and to study pathogenesis and viral gene functions. |
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