Xin Guo

The 30-Amino-Acid Deletion in the Nsp2 of Highly Pathogenic Porcine Reproductive and Respiratory Syndrome Virus Emerging in China Is Not Related to Its Virulence

ABSTRACT During the past 2 years, an atypical clinical outbreak, caused by a highly pathogenic porcine reproductive and respiratory syndrome virus (PRRSV) with a unique 30-amino-acid deletion in its Nsp2-coding region, was pandemic in China. In this study, we generated four full-length infectious cDNA clones: a clone of the highly virulent PRRSV strain JXwn06 (pWSK-JXwn), a clone of the low-virulence PRRSV strain HB-1/3.9 (pWSK-HB-1/3.9), a chimeric clone in which the Nsp2 region containing the 30-amino-acid deletion was replaced by the corresponding region of the low-virulence PRRSV strain HB-1/3.9 (pWSK-JXwn-HB1nsp2), and a mutated HB-1/3.9 clone with the same deletion in Nsp2 as JXwn06 (pWSK-HB1-ND30). We also investigated the pathogenicities of the rescued viruses (designated RvJXwn, RvJXwn-HB1nsp2, RvHB-1/3.9, and RvHB1-ND30, respectively) in specific-pathogen-free piglets in order to determine the role of the 30-amino-acid deletion in the virulence of the highly pathogenic PRRSV. All the rescued viruses could replicate stably in MARC-145 cells. Our findings indicated that RvJXwn-HB1nsp2 retained high virulence for piglets, like RvJXwn and the parental virus JXwn06, although the survival time of piglets infected with RvJXwn-HB1nsp2 was obviously prolonged. RvHB1-ND30 exhibited low virulence for piglets, like RvHB-1/3.9 and the parental virus HB-1/3.9. Therefore, we conclude that the 30-amino-acid deletion is not related to the virulence of the highly pathogenic PRRSV emerging in China.

Genomic characterization of two Chinese isolates of Porcine respiratory and reproductive syndrome virus

Summary.The genomes of two isolates of Porcine respiratory and reproductive syndrome virus (PRRSV) from China, designated HB-1(sh)/2002 and HB-2(sh)/2002, were sequenced and analyzed. The size of the genomes of HB-1(sh)/2002 and HB-2(sh)/2002 were 15,411 and 15,373 nucleotides respectively, excluding the poly(A) tails. Comparative analysis with the genomic sequences of another Chinese isolate (BJ-4) and North American (VR2332) and European (Lelystad virus, LV) viruses revealed that HB-1(sh)/2002 shared 89.8% identity with BJ-4 and VR2332, but only 54.7% with LV; while HB-2(sh)/2002 shared 89.4% and 89.5% identity with BJ-4 and VR2332 respectively and 54.3% with LV, indicating that the two new Chinese isolates were related to the North American PRRSV genotype. Phylogenetic analysis based on the nucleotide sequence of the structural protein ORF’s showed that the two new Chinese isolates belong to same genetic subgroup. HB-2(sh)/2002 additionally exhibited variations in the NSP2 nonstructural protein encoded by ORF1 and the structural protein GP3 encoded by ORF3 in comparison with other North American PRRSV isolates, namely a 12 amino acids deletion in Nsp2 and one amino acid deletion in GP3 were found in HB-2(sh)/2002. Therefore, HB-2(sh)/2002 was a novel strain with unique deletions.

Genetic variation analysis of Chinese strains of porcine circovirus type 2.

Forty Chinese PCV2 strains collected between 2004 and 2008 were sequenced and their genetic variations were analyzed together with nine previous PCV2 isolates. Phylogenetic analysis indicated that these Chinese PCV2 strains could be divided into four genotypes (PCV-2a, PCV-2b, PCV-2d and PCV-2e), and the genotype PCV-2c defined in Denmark was not found. PCV-2d and PCV-2e were two genotypes firstly determined in our study. Variation analysis of amino acids of capsid protein revealed that Chinese PCV2 strains clustered within PCV-2d had four amino acid marker positions and the isolates within PCV-2e had seven unique amino acid mutations. Our analysis also showed that PCV-2b became dominating in China in recent years. These data contribute to the understanding of PCV2 molecular epidemiology.

Molecular variation analysis of porcine reproductive and respiratory syndrome virus in China

Porcine reproductive and respiratory syndrome virus (PRRSV) is characteristic of genetically extensive variation. The objective of the present study was to analyze the molecular variation and evolution of porcine reproductive and respiratory syndrome virus in China based on the complete genomic sequences of three highly pathogenic Chinese PRRSV strains isolated in 2006 and the sequences of the amplified Nsp2, ORF5 and ORF7 genes from clinical specimens during 2006-2008. Full-length genome sequencing and phylogenetic analysis showed that the three strains (JXwn06, BJsy06 and NX06) had a unique 30-amino-acid discontinuous deletion in Nsp2, and were classified into the same subgroup that consisted of the most Chinese strains isolated during 2006-2007, the pandemic period of atypical PRRS. The evolution analysis suggested that the emergence of the highly pathogenic PRRSV in China experienced a gradual variation and evolution accumulation progress from Chinese domestic virus. The variation analysis of the amplified 41 Nsp2, 59 ORF5 and 59 ORF7 genes indicated that the diversity of PRRSV strain existed in the field, and the highly pathogenic PRRSV strain with the 30-amino-acid deletion in Nsp2 was the dominating virus in China in recent years. Our data contribute to the understanding of molecular variation and epidemiology surveillance of PRRSV in China.

Nsp9 and Nsp10 Contribute to the Fatal Virulence of Highly Pathogenic Porcine Reproductive and Respiratory Syndrome Virus Emerging in China

Atypical porcine reproductive and respiratory syndrome (PRRS), which is caused by the Chinese highly pathogenic PRRS virus (HP-PRRSV), has resulted in large economic loss to the swine industry since its outbreak in 2006. However, to date, the region(s) within the viral genome that are related to the fatal virulence of HP-PRRSV remain unknown. In the present study, we generated a series of full-length infectious cDNA clones with swapped coding regions between the highly pathogenic RvJXwn and low pathogenic RvHB-1/3.9. Next, the in vitro and in vivo replication and pathogenicity for piglets of the rescued chimeric viruses were systematically analyzed and compared with their backbone viruses. First, we swapped the regions including the 5′UTR+ORF1a, ORF1b, and structural proteins (SPs)-coding region between the two viruses and demonstrated that the nonstructural protein-coding region, ORF1b, is directly related to the fatal virulence and increased replication efficiency of HP-PRRSV both in vitro and in vivo. Furthermore, we substituted the nonstructural protein (Nsp) 9-, Nsp10-, Nsp11- and Nsp12-coding regions separately; or Nsp9- and Nsp10-coding regions together; or Nsp9-, Nsp10- and Nsp11-coding regions simultaneously between the two viruses. Our results indicated that the HP-PRRSV Nsp9- and Nsp10-coding regions together are closely related to the replication efficiency in vitro and in vivo and are related to the increased pathogenicity and fatal virulence for piglets. Our findings suggest that Nsp9 and Nsp10 together contribute to the fatal virulence of HP-PRRSV emerging in China, helping to elucidate the pathogenesis of this virus.

Recombination analyses between two strains of porcine reproductive and respiratory syndrome virus in vivo

Porcine reproductive and respiratory syndrome virus (PRRSV) is characteristic of genetically extensive variation. In this study, five SPF pigs were co-infected with two strains of PRRSV (JXwn06-81c and HB-1/3.9c), and 352 viruses were cloned by plaque assay from the sera of the infected pigs on days 3, 5, 7, 10, 14, 21 postinfection (pi), and the recombinant events between the two viruses were systematically investigated by sequencing the ORF5, ORF3 and Nsp2 genes of each cloned virus and using SimPlot and Genetic Algorithm for Recombination Detection (GARD) analysis. Totally, 133 recombinant viruses out of the plaque viruses were acquired from four of five infected pigs during days 7-21pi upon co-infection with JXwn06-81c and HB-1/3.9c. The intragenic recombination and intergenic fragment exchange of the ORF5, ORF3 and Nsp2 genes between the two viruses exhibited different patterns, and the recombination for ORF5 gene and Nsp2 occurred as early as on day 7pi. The recombination between the ORF5, ORF3 or Nsp2 gene resulted in the generation of chimeric GP5, GP3 or Nsp2. Of the three genes, Nsp2 gene exhibited more complicated recombination situation. Meanwhile, the putative recombination breakpoints and hotspots for the three genes were analyzed. Our findings not only provide valuable evidences for understanding that recombination is an important genetic mechanism contributing to the variation and evolution of PRRSV, but also suggest that extensive use of attenuated vaccine of PRRSV undoubtedly contributes to the increased diversity of PRRSV in field.

Porcine circovirus type 2 and its associated diseases in China

Porcine circovirus type 2 (PCV2) has been recognized as an important vial pathogen for global swine industry. The virus is associated with postweaning multisystemic wasting syndrome (PMWS) and other syndrome diseases collectively known as porcine circovirus-associated disease (PCVAD). PCV2 infection and PMWS have caused great impact on the pig production in China during the past 10 years. This review will involve in the history of PCVAD, serological epidemiology of PCV2 infection, and clinical aspect of PCVAD, and the genomic characteristics, variation and genotyping of PCV2, as well as control situation of PCVAD in China.

Guinea pig model for evaluating the potential public health risk of swine and avian influenza viruses.

Background The influenza viruses circulating in animals sporadically transmit to humans and pose pandemic threats. Animal models to evaluate the potential public health risk potential of these viruses are needed. Methodology/Principal Findings We investigated the guinea pig as a mammalian model for the study of the replication and transmission characteristics of selected swine H1N1, H1N2, H3N2 and avian H9N2 influenza viruses, compared to those of pandemic (H1N1) 2009 and seasonal human H1N1, H3N2 influenza viruses. The swine and avian influenza viruses investigated were restricted to the respiratory system of guinea pigs and shed at high titers in nasal tracts without prior adaptation, similar to human strains. None of the swine and avian influenza viruses showed transmissibility among guinea pigs; in contrast, pandemic (H1N1) 2009 virus transmitted from infected guinea pigs to all animals and seasonal human influenza viruses could also horizontally transmit in guinea pigs. The analysis of the receptor distribution in the guinea pig respiratory tissues by lectin histochemistry indicated that both SAα2,3-Gal and SAα2,6-Gal receptors widely presented in the nasal tract and the trachea, while SAα2,3-Gal receptor was the main receptor in the lung. Conclusions/Significance We propose that the guinea pig could serve as a useful mammalian model to evaluate the potential public health threat of swine and avian influenza viruses.

Chinese highly pathogenic porcine reproductive and respiratory syndrome virus exhibits more extensive tissue tropism for pigs

BackgroundThe highly pathogenic porcine reproductive and respiratory syndrome virus (PRRSV) emerging in China exhibits high fatality to pigs. However, the mechanism related to the increased pathogenicity of the virus remains unclear. In the present study, the differences in tissue tropism between the highly pathogenic PRRSV strain (JXwn06) and the low pathogenic PRRSV strain (HB-1/3.9) were investigated using PRRSV-specific immunohistochemistry (IHC) staining to provide evidence for elucidating possible mechanism of the pathogenicity of Chinese highly pathogenic PRRSV.FindingsIHC examination showed that PRRSV antigen in the tissues including spleen, tonsil, thymus, kidney, cerebellum, stomach, small intestine, large intestine, turbinal bone and laryngeal cartilage was positive in more pigs inoculated with JXwn06 than HB-1/3.9, and the tissues including trachea, esophagus, liver, mandibular gland and thyroid gland were positive for viral antigen in the pigs inoculated with JXwn06, but not in the pigs inoculated with HB-1/3.9. Meanwhile, we observed that epithelium in tissues including interlobular bile duct in liver, distal renal tubule of kidney, esophageal gland and tracheal gland were positive for viral antigen only in JXwn06-inoculated pigs, and epithelium of gastric mucosa and fundic gland, and intestinal gland were positive for viral antigen in both JXwn06- and HB-1/3.9-inoculated pigs, using monoclonal antibodies to N and Nsp2 proteins.ConclusionsTaken together, these findings indicate that the highly pathogenic PRRSV JXwn06 displays an expanded tissue tropism in vivo, suggesting this may contribute to its high pathogenicity to pigs.

Genetic Diversity Analysis of Genotype 2 Porcine Reproductive and Respiratory Syndrome Viruses Emerging in Recent Years in China

Porcine reproductive and respiratory syndrome virus (PRRSV) is characterized by its extensive genetic diversity. Here we analyzed 101 sequences of NSP2 hypervariable region, 123 ORF3 sequences, and 118 ORF5 sequences from 128 PRRSV-positive clinical samples collected in different areas of China during 2008–early 2012. The results indicated that the amino acid identities of the three genes among these sequences were 87.6%–100%, 92.5%–100%, and 77%–100%, respectively. Meanwhile, 4 novel patterns of deletion and insertion in NSP2 region or GP5 were first found. The phylogenetic analysis on these 3 genes revealed that the Chinese PRRSV strains could be divided into three subgroups; majority of genes analyzed here were clustered in subgroup 3 with multiple branches; the strains with 30-aa deletion in NSP2-coding region were still the dominant virus in the field. Further phylogenetic analysis on four obtained complete genomic sequences showed that they were clustered into different branches with the Chinese corresponding representative strains. Our analyses suggest that the genetic diversity of genotype 2 PRRSV in the field displays a tendency of increasing in recent years in China, and the 30-aa deletion in NSP2-coding region should be no longer defined as the molecular marker of the Chinese HP-PRRSV.