Detection and phylogenetic analysis of porcine circovirus type 3 in central China

Porcine circovirus type 3 (PCV3) is the pathogen responsible for a new infectious disease that was first reported in 2016 in the United States. To further investigate the epidemic profile and genetic diversity of the virus, one hundred and seventy clinical samples (110 tissue samples and 60 serum samples) were collected from 41 different pig farms in 14 cities in central China, and a SYBR Green I‐based quantitative real‐time PCR method was developed to detect PCV3. The partial cap genes of four field strains from four different farms were sequenced and analysed. The results showed the detection limit was 2.19 × 10¹ genome copies/μl. Fifty‐three of 170 samples were detected as positive for PCV3, giving a PCV3‐positive rate of 31.18%, with 48.78% (20/41) of pig farms harbouring PCV3, which varied from 20% to 42.86% between 2013 and 2017. PCV3 could be detected in samples from pigs with different clinical presentations, and the PCV3‐positive rates varied for these different clinical presentations. The partial capsid genes of four PCV3 strains (designated YZ, LY‐03, NY and SP) shared 96.3%–99.4% nucleotide identity with those available in GenBank. Phylogenetic analysis based on the capsid gene of 32 PCV3 strains showed that the four PCV3 strains in this study were clustered with the China/GD2016 and South Korea Ku‐1606 strains. The results of this study will aid our understanding of the molecular epidemiology of PCV3.     

Isolation and phylogenetic analysis of porcine deltacoronavirus from pigs with diarrhoea in Hebei province,China

Porcine deltacoronavirus (PDC oV) is a recently identified coronavirus in the genus Deltacoronavirus that can cause enteric disease with clinical signs including diarrhoea, vomiting, dehydration and mortality in neonatal piglets. Although evidence of the prevalence of PDC oV in China is accumulating, little published information about Chinese PDC oV isolates is available. In this study, we investigated the presence of PDC oV in 49 faecal/intestinal samples from piglets with diarrhoea on different farms in Hebei province. Five samples (10.2%) were positive for PDC oV, but no coinfection of PDC oV with other enteropathogens was observed. A PDC oV strain named HB ‐BD was successfully isolated from the intestinal contents of a diarrhoeic piglet and serially propagated in swine testicular (ST ) cells for >40 passages. The complete genome of the HB ‐BD strain was sequenced and analysed. Genomic analysis showed that the HB ‐BD strain had a closer relationship with Chinese strains than those from other countries and was grouped within the Chinese PDC oV cluster. The results of this study will be valuable for further research of PDC oV genetic evolution and development of effective diagnostic reagents, assays and potential vaccines against newly emerged PDC oV strains.     

First report and phylogenetic analysis of porcine deltacoronavirus in Mexico

Porcine deltacoronavirus has caused great economic losses in the swine industry worldwide. In this study, we carried out the first detection, sequencing and characterization of this virus in Mexico. We analysed 885 rectal samples by multiplex RT‐PCR to determine coinfections. In addition, the Spike gene was amplified, sequenced and analysed phylogenetically. We found 85 positive samples for porcine deltacoronavirus, representing 9.6% of the total samples, and we determined that the most frequent coinfection was with porcine epidemic diarrhoea virus (54.1%). Four sequences of Mexican isolates were most closely related to those of the United States. The antigenic regions and the glycosylation site of the strains obtained coincide with those previously reported. This relationship is probably related to the commercial exchange of pigs between the US and Mexico and the geographical proximity of these two countries.     

Genome characterization of a porcine circovirus type 3 in South China

Porcine circovirus type 3 (PCV 3) is a novel circovirus that was associated with porcine dermatitis and nephropathy syndrome, reproductive failure, and multisystemic inflammation. Recently, a PCV 3 strain was identified from pyretic and pneumonic piglets in Guangdong province, China. This virus strain was sequenced and designated PCV 3‐China/GD 2016. The complete genome of PCV 3‐China/GD 2016 is 2,000 bp in length and shared 99.1% and 99.1% nucleotide identities with PCV 3/29160 and PCV 3/2164, respectively. [Corrections added after initial online publication on 13 March 2017: The numbers ‘98.5%’ and ‘97.4%’ has been changed to ‘99.1%’ and ‘99.1%’ in the previous sentence.] Phylogenetic analysis based on the complete genome showed that PCV 3‐China/GD 2016 clustered with the emerging PCV 3 and separated with other virus in genus Circovirus . The results of this study suggest that PCV 3 has existed within the pigs of China. It is urgent to investigate the pathogenicity and epidemiology of this novel circovirus China.     

Updated phylogenetic analysis of the spike gene and identification of a novel recombinant porcine epidemic diarrhoea virus strain in Taiwan

New variants of porcine epidemic diarrhoea virus (PEDV) causing a highly contagious intestinal disease, porcine epidemic diarrhoea virus (PED), have resulted in high mortality in suckling pigs across several countries since 2013. After 2015, the prevalence of the genogroup 2b (G2b) PEDVs decreased in a cyclical pattern with endemic seasonal outbreaks occasionally seen. To better understand the genetic diversity of PEDVs recently circulating in Taiwan, full‐length spike (S) genes of 31 PEDV strains from 28 pig farms collected during 2016–2018 were sequenced. While the majority of S gene sequences (from 27/28 farms) were closely related to the previous G2b PEDV strains, increased genetic diversities leading to several nonsynonymous mutations scattering in the neutralizing epitopes of the S gene were detected in PEDVs recently circulating in Taiwan. Furthermore, novel recombinant variants, the PEDV TW/Yunlin550/2018 strains exhibiting recombinant events between a previously isolated Taiwan PEDV G2b strain and a wild‐type PEDV G1a strain, were identified and further classified into a new genogroup, G1c. These results provide updated information about the genetic diversity of currently circulating PEDVs in the field and could help to develop more suitable strategies for controlling this disease.     

Phylogenetic and genomic characterization of a novel atypical porcine pestivirus in China

Atypical porcine pestivirus (APPV ) has been considered a novel pestivirus and causative agent of congenital tremor type A‐II . An APPV CH ‐GX 2016 strain was characterized from newly born piglets with clinical symptoms of congenital tremor in Guangxi, China. The genome of APPV CH ‐GX 2016 strain was 11,475 bp in length and encoded a polyprotein composed of the 3,635 amino acids. This genome sequence exhibited 88.0% to 90.8% nucleotide sequence homology with other APPV reference sequences in GenBank. Phylogenetic analysis further showed that APPV CH ‐GX is a novel pestivirus compared with previously described classical pestivirus strains. Therefore, APPV is present in pigs in China.     

Detection of porcine circovirus‐like virus P1 in Hebei,China

Porcine circovirus‐like virus P1 is a novel unclassified circovirus that was first detected in China and may be associated with post‐weaning multisystemic wasting syndrome (PMWS ) and congenital tremor. In this study, we detected P1 infection in pigs in Hebei Province, China, in 2017. One hundred and forty of 500 (28.0%) serum samples from 25 pig farms with different PMWS status in seven cities were P1 positive on PCR . Twelve P1 strains were sequenced, and the complete genomes of 11 P1 strains were 648 nucleotides (nt) in length, whereas that of strain ZJK 02 was 647 nt, with a G deletion at position of 183 in its genome. The complete genomic and capsid protein sequences of the 12 P1 strains analysed in this study shared 98.8%–100.0% and 86.5%–100.0% identity, respectively. A phylogenetic analysis based on the complete genomic and capsid sequences of 26 P1 strains showed that the 12 P1 sequences from Hebei Province clustered on two small branches. Further studies of the evolution and pathogenesis of P1 are required.     

The detection of porcine circovirus 3 in Guangxi,China

Porcine circovirus type 3 (PCV 3) is a novel circovirus that was firstly detected in the USA . PCV 3 is associated with porcine dermatitis and nephropathy syndrome (PDNS ), reproductive failure and cardiac and multisystemic inflammation. Latterly, PCV 3 was detected in Guangxi, China. Forty‐one of 108 (37.96%) samples and nine of 47 (19.14%) samples were PCV 3 positive in pig farms and pig slaughter houses, respectively. Three PCV 3 strains were sequenced and designated PCV 3‐China/GX 2016‐1, PCV 3‐China/GX 2016‐2 and PCV 3‐China/GX 2016‐3. The complete genome of PCV 3‐China/GX 2016‐2 and PCV 3‐China/GX 2016‐3 is both 2,000 bp in length, while PCV 3‐China/GX 2016‐1 is of 1,999 bp and has a G deletion at position of 1,155 in its genome. The complete genome and capsid nucleotide of the three PCV 3 strains identified in this study shared 97.5%–99.4% and 96.7%–99.1% identities with that of the other PCV 3 strains available in NCBI , respectively. Phylogenetic analysis based on complete genome and capsid gene of 35 PCV 3 strains showed that the three PCV 3 sequences from Guangxi Province were divided into two clusters. The results of this study contribute to the understanding of PCV 3 molecular epidemiology.     

The detection and phylogenetic analysis of porcine deltacoronavirus from Guangdong Province in Southern China

Porcine deltacoronavirus (PDC oV) is a newly discovered coronavirus that causes diarrhoea, vomiting and dehydration in sucking and nursing piglets. It was first reported in Hong Kong in 2012 and has since been discovered in the United States, Canada, South Korea, mainland China, Thailand and Laos. PDC oV has been experimentally proved to lead to diarrhoea in swine and it was detected positive in pigs in Guangdong, southern China. In our study, 252 faecal and intestinal samples from sucking piglets and sows with diarrhoea were surveyed for common enteric viruses. We found a prevalence of PDC oV (21.8%), porcine epidemic diarrhoea virus (65.5%), transmissible gastroenteritis virus (0%), rotavirus group A (25.0%) and porcine kobuvirus (68.7%). We isolated 13 PDC oV strains and discovered that PDC oV infections were often co‐infections with kobuvirus rather than the commonly linked porcine epidemic diarrhoea virus. Phylogenetic analysis of S gene and N gene revealed that 11 of 13 PDC oV strains belonged to Chinese lineage. As for the left two strains, one single strain (CHN ‐GD 16‐05) belonged to American and Korean lineages while another strain (CHN ‐GD 16‐03) was similar to a Thai strain, but only in the S gene. This suggested a possible recombination event between the Thai and the newly described Chinese strain.     

First detection and genetic analysis of fox‐origin porcine circovirus type 2

Porcine circovirus type 2 (PCV2) is a causative agent of porcine circovirus‐associated disease (PCVAD), which is a serious problem in the swine industry worldwide. In recent years, nonporcine‐origin PCV2 has attracted more and more attention of the researchers. This study reported on the first identification of PCV2 in farmed foxes with reproductive failure. Three fox‐origin PCV2 strains were successfully isolated, sequenced, and designated as FoxHB1, FoxHB2, and FoxHB3 respectively. Pairwise‐sequence comparisons of the complete genomes revealed that three fox‐origin PCV2 strains had nucleotide identities varied from 91.9% to 99.7% with representative strains of PCV2 different genotypes. Meanwhile, phylogenetic analysis based on complete genomes of 44 PCV2 strains indicated that the fox‐origin PCV2 strains belonged to Chinese epidemic genotypes PCV2b and PCV2d. These results provided the first supported evidence that PCV2 could infect foxes, implying that the cross‐species transmission of PCV2 would be a big threat to Chinese fur animal‐bearing industry.     

No transmission of porcine endogenous retrovirus after transplantation of adult porcine islets into diabetic nude mice and immunosuppressed rats

BACKGROUND: The aim of this study was to investigate whether transmission of porcine endogenous retrovirus (PERV) occurs in a model of diabetes reversal by the xenotransplantation of adult porcine islets (APIs) into immunoincompetent diabetic rodents. METHODS: Black-6 nu/nu mice and Lewis rats were immunosuppressed with cyclosporin A (CsA) and FTY 720, and rendered diabetic with streptozotocin. Purified APIs were transplanted into the renal subcapsular space; 5,000 islet equivalents (IEQs) were used in the nude mice (n = 4) and 40,000 IEQs in the rats (n = 4). The nude mice were sacrificed at 75 days after transplantation. In order to confirm chronic xenograft function, the graft-bearing kidney was removed prior to sacrifice. The rats were followed until xenograft rejection, at which time they were sacrificed. Immediately after sacrifice, tissue samples (liver, spleen, and small intestine) were taken for analysis. Quantitative polymerase chain reaction (PCR) was used to assess evidence of PERV transmission, and porcine cell chimerism. RESULTS: All animals became normoglycemic within 48 h of transplantation. The nude mice remained normoglycemic during the 75-day study period, with removal of the graft-bearing kidney resulting in prompt hyperglycemia. The rats remained normoglycemic until xenograft rejection, which occurred at 66 +/- 28 days. Despite the evidence of porcine cell microchimerism in recipients, real-time PCR detected no evidence of PERV transmission in any of the tissue specimens tested. CONCLUSIONS: There was no evidence of PERV transmission following transplantation of pig islets into diabetic nude mice and immunosuppressed rats.     

Molecular characterization of two novel atypical porcine pestivirus (APPV) strains from piglets with congenital tremor in China

As one of emerging porcine viruses, atypical porcine pestivirus (APPV) was found in three continents since it emerged in 2015. It is now thought as the causative agent for congenital tremor type A‐II in piglets. At the end of 2017, two APPV strains were identified from piglets with congenital tremor in Guangxi and Yunnan, China. The genome of APPV GX04/2017 strain was so far determined to be 11,534 nucleotides (nt) in length and contains a single open reading frame (ORF) encoding a polyprotein comprising 3,635 amino acids. Comparative analysis of ORF, N^pro, E2, and NS3 gene sequences revealed that the APPV GX04/2017 strain shares nucleotide sequence identities of 82.8%–92.8% with other APPV strains, while YN01/2017 strain is 79.4%–97.4% homology to the others. Phylogenetic analysis showed that the APPV GX04/2017 and YN01/2017 are two novel APPV strains with the highest homology to each other, and relative high similarity to the APPV 000515 and JX‐JM01 strains in genome sequence. The current findings provide updated information about APPV epidemiology and divergence in China, which would certainly help to establish reliable diagnosis and surveillance programs for APPV.     

The prevalence of novel porcine circovirus type 3 isolates in pig farms in China

The emerging porcine circovirus type 3 (PCV3) has been reported in Chinese swine herds since 2017. We performed a nationwide investigation on the prevalence of PCV3 in pig breeding farms and slaughterhouses in China. A total of 4,040 tonsil samples were collected from 89 farms in 25 provinces, and 1,419 lymph node samples were collected from 50 slaughterhouses in 27 provinces. The PCR results showed that in pig breeding farms, the positive rate was 41.6% (37/89) at the farm level and 5.0% (201/4040) at the individual level. In the slaughterhouses, the positive rate was 62.0% (31/50) at the farm level and 8.0% (114/1419) at the individual level. The PCR‐positive samples were further sequenced, and 19 new PCV3 isolates were identified. The complete genomes of the 19 virus isolates showed 97.4%–99.7% nucleotide identity with other PCV3 isolates. The phylogenetic analysis revealed that the 19 isolates were divided into PCV3a and PCV3b genotype clusters based on the PCV3 complete genome sequences. This study indicated that PCV3 has spread extensively in both pig breeding farms and slaughterhouses. The positive rate of PCV3 was higher in eastern China compared to other regions in China. Furthermore, this study will help us understand the prevalence and genetic variation of PCV3 in Chinese swine herds.     

Genetic epidemiology of porcine epidemic diarrhoea virus circulating in China in 2012–2017 based on spike gene

A porcine epidemic diarrhoea outbreak first occurred in southern China at the end of 2010 and afterwards the disease spread throughout the country. Spike gene is divergent and important for understanding the genetic relations of porcine epidemic diarrhoea virus field strains, the epidemiological status of the virus and vaccine development. In this study, S1 regions of spike gene of 1,235 selected strains collected from 2012 to 2017 in China were clustered along with 25 references of spike sequences mainly from China. The phylogenetic analysis demonstrates that these sequences of S1 regions were genetically more diverse with time. In all strains, G1a, G1b, G2a and G2b clusters accounted for 1.9%, 9.6%, 32.2% and 56.3%, respectively, namely G2a and G2b were the two most prevalent clusters in China. Furthermore, we made a more detailed classification for G2 group based on phylogenetic tree, in which G2a was divided into two subgroups, and G2b was separated into four subgroups.     

Emergence of novel recombination lineage 3 of porcine reproductive and respiratory syndrome viruses in Southern China

Lineage 3 of porcine reproductive and respiratory syndrome viruses, which belong to North America type 2, has a long epidemic history in China. The novel lineage 3 viruses constantly emerging in recent years are characterized by a high detection rate and significant pathogenicity. In this study, we investigated the prevalence of lineage 3 in southern China and selected two isolated strains for genome and virulence analyses. A cross‐sectional epidemiology investigation indicated that the prevalence of lineage 3 antigens was 35.68% (95% CI: 27.6–44.3%) among 227 samples collected from over 100 infected farms from January 2016 to July 2017 in southern China. Two novel isolates of lineage 3 were selected. After 20 passages, Marc‐145 cells were not susceptible to those viruses. Full‐length genome analysis indicated that the two strains share 95.2% homology with each other and 95.7%–96.2% with highly pathogenic porcine reproductive and respiratory syndrome viruses (HP‐PRRSVs; JXA1‐like strain, lineage 8.7). Phylogenetic and molecular evolutionary results showed that for the two isolates, HP‐PRRSV provides most of the ORF1 gene. Animal experiment revealed discrepancies in virulence between the strains. Although challenge resulted in 100% morbidity, the isolate carrying most of the HP‐PRRSV ORF1 caused severe clinical symptoms and 40% mortality, whereas the other isolate containing part of the ORF1 gene caused no mortality. Overall, these findings suggest that lineage 3 viruses might be commonly circulating in most of southern China. Frequent recombination events within HP‐PRRSVs of this lineage with changing virulence could represent potential threats to the pig industry.     

Characterization and evolution of the coronavirus porcine epidemic diarrhoea virus HLJBY isolated in China

A strain of porcine epidemic diarrhoea virus (PEDV), namely HLJBY, was isolated in Heilongjiang province, China. To provide insight into the understanding of the phylogenetic and the current epidemiological status of PEDV, PEDV HLJBY was compared with CV777 and other PEDV strains deposited in the GenBank. The homology between the entire genomic nucleotide sequences of PEDV HLJBY and CV777 was 97.7%. The homology of M gene was the highest (99.0%). However, the homology of ORF3 gene was 97.7%, and protein of ORF3 was 90.1%. In addition, HLJBY showed the highest nucleotide identity (99.9%) with PEDV‐SX/China/2017 strain and lowest similarity (91.2%) to PEDV/Belgorod/dom/2008 strain. We analysed the changes in S gene and its protein of PEDV HLJBY with 65 historic PEDV strains. The highest nucleotide identity was 99.9% compared with PEDV‐SX/China/2017 strain, and the lowest nucleotide identity was 60.0% compared with PEDV/Belgorod/dom/2008 strain. The length of deduced amino acid sequences of S proteins varied from 1,372 to 1,390 amino acids (aa). Compared with most aa sequences of S proteins, HLJBY exhibited 5 aa deletions (position 55, 59–61, 144). Analysis and comparison of open reading frame 3 (ORF3) proteins between HLJBY strain and other PEDV strains were also focused in this study. We revealed that the length of deduced amino acid sequences of ORF3 proteins was 80–224 aa among tested strains and the identity of HLJBY ORF3 amino acids with other PEDV strains was 71.4%–98.9%. ORF3 protein of both HLJBY strain and PEDV‐SX/China/2017 strain consists of 91 aa, with 133 aa deletions at their C' end in relation to the other tested PEDV strains. The phylogenetic tree based on different proteins or genes resulted in different phylogenetic groups. For pathogenicity evaluation of PEDV HLJBY strain, colostrum deprivation piglets were challenged with PEDV HLJBY, and PEDV reference strain CV777 as a control, the results showed that animals challenged with either of these PEDV strains developed diarrhoea, and histopathological examination of small intestines of challenged animals showed acute viral enteritis with villous atrophy in either PEDV HLJBY‐P10 or PEDV CV777‐P8 inoculated piglets.     

Retrospective detection and phylogenetic analysis of swine acute diarrhoea syndrome coronavirus in pigs in southern China

Swine acute diarrhoea syndrome coronavirus (SADS‐CoV), a novel coronavirus, was first discovered in southern China in January 2017 and caused a large scale outbreak of fatal diarrheal disease in piglets. Here, we conducted a retrospective investigation of 236 samples from 45 swine farms with a clinical history of diarrheal disease to evaluate the emergence and the distribution of SADS‐CoV in pigs in China. Our results suggest that SADS‐CoV has emerged in China at least since August 2016. Meanwhile, we detected a prevalence of SADS‐CoV (43.53%), porcine deltacoronavirus (8.83%), porcine epidemic diarrhoea virus (PEDV) (78.25%), rotavirus (21.77%), and transmissible gastroenteritis virus (0%), and we also found the co‐infection of SADS‐CoV and PEDV occurred most frequently with the rate of 17.65%. We screened and obtained two new complete genomes, five N and five S genes of SADS‐CoV. Phylogenetic analysis based on these sequences revealed that all SADS‐CoV sequences in this study clustered with previously reported SADS‐CoV strains to form a well defined branch that grouped with the bat coronavirus HKU2 strains. This study is the first retrospective investigation for SADS‐CoV and provides the epidemiological information of this new virus in China, which highlights the urgency to develop effective measures to control SADS‐CoV.     

Retrospective study of porcine circovirus 3 infection in China

PCV 3 is an emerging swine virus associated with porcine dermatitis and nephropathy syndrome (PDNS ), reproductive failure, respiratory diseases and systematic inflammation. Although first identified in 2015, the earliest case has been traced back to 2009 in the United States. In China, PCV 3 infection was first detected in 2015, but little information has been available about its occurrence and prevalence there before 2015. In this study, 200 porcine clinical samples collected from 20 provinces, five autonomous regions and four municipalities between 1990 and 1999 were analysed for PCV 3 infection by PCR . Results showed that 6.5% of the porcine samples collected from eight provinces and one autonomous region were PCV 3 positive, with the earliest cases occurring in 1996. Nucleotide sequence analysis showed that PCV 3 strains obtained in this study shared 96.6%–99.7% and 97.1%–99.4% sequence identity at the ORF 2 gene and genome levels with all available reference strains from China and other countries, indicating the high genetic stability of PCV 3 over the past 20 years.