Phenotypic and genotypic analyses of an attenuated porcine reproductive and respiratory syndrome virus strain after serial passages in cultured porcine alveolar macrophages

The porcine reproductive and respiratory syndrome virus (PRRSV) is a globally ubiquitous swine viral pathogen that causes major economic losses worldwide. We previously reported an over-attenuated phenotype of cell-adapted PRRSV strain CA-2-P100 in vivo. In the present study, CA-2-P100 was serially propagated in cultured porcine alveolar macrophage (PAM) cells for up to 20 passages to obtain the derivative strain CA-2-MP120. Animal inoculation studies revealed that both CA-2-P100 and CA-2-MP120 had decreased virulence, eliciting weight gains, body temperatures, and histopathologic lesions similar to those in the negative control group. However, compared to CA-2-P100 infection, CA-2-MP120 yielded consistently higher viremia kinetics and enhanced antibody responses in pigs. All pigs inoculated with CA-2-MP120 developed viremia and seroconverted to PRRSV. During 20 passages in PAM cells, CA-2-MP120 acquired 15 amino acid changes that were mostly distributed in nsp2 and minor structural protein-coding regions. Among these changes, 6 mutations represented reversions to the sequences of the reference CA-2 and parental CA-2-P20 strains. These genetic drifts may be hypothetical molecular markers associated with PRRSV macrophage tropism and virulence. Our results indicate that the PAM-passaged CA-2-MP120 strain is a potential candidate for developing a live, attenuated PRRSV vaccine.

Evaluation of the efficacy of an attenuated live vaccine based on virulent porcine reproductive and respiratory syndrome virus 2 in young pigs / 대한수의학회지

The efficacy of the CA-2-MP120 vaccine, a cell culture-attenuated strain of virulent porcine reproductive and respiratory syndrome virus (PRRSV), was assessed in pigs. Despite the persistence of viremia in all vaccinated animals during the immunization period, the virus was not detected in vaccinated pigs following challenge. Furthermore, no pigs in the vaccinated group shed PRRSV nasally, orally or rectally throughout the experiment. Moreover, histopathological lung and lymph node lesions in the immunized group were much milder than those in the unimmunized and challenged group. These results indicated that CA-2-MP120 can provide effective protection against virulent wildtype PRRSV-2.

Evaluation of the efficacy of an attenuated live vaccine based on virulent porcine reproductive and respiratory syndrome virus 2 in young pigs

The efficacy of the CA-2-MP120 vaccine, a cell culture-attenuated strain of virulent porcine reproductive and respiratory syndrome virus (PRRSV), was assessed in pigs. Despite the persistence of viremia in all vaccinated animals during the immunization period, the virus was not detected in vaccinated pigs following challenge. Furthermore, no pigs in the vaccinated group shed PRRSV nasally, orally or rectally throughout the experiment. Moreover, histopathological lung and lymph node lesions in the immunized group were much milder than those in the unimmunized and challenged group. These results indicated that CA-2-MP120 can provide effective protection against virulent wildtype PRRSV-2.

Expression of human norovirus VP1 gene and VP1-specific monoclonal antibodies / 동물의과학연구지

Norovirus (NoV) is an etiologic agent of human and animal acute gastroenteritis and is a member of the family Caliciviridae. NoV is classified based on nucleotide sequences of the VP1 gene into at least six genogroups (GI-GVI), among which GI, GII, and GIV are known to infect humans and GII is the most prevalent genogroup. In this study, VP1, the full gene of GII human NoV, was cloned from a human fecal sample and expressed using a baculovirus expression system. Human NoV VP1-specific monoclonal antibodies (MAbs) were produced using expressed recombinant VP1. Expressed VP1 in the recombinant virus was confirmed by polymerase chain reaction (PCR), indirect fluorescence antibody (IFA) test, and Western blot analysis. Eight hybridomas secreting VP1-specific MAbs against human GII NoV were generated and characterized. All of the MAbs produced in this study reacted with human GII NoV VP1-recombinant baculoviruses but not with other non-human calicivirus recombinant baculoviruses. These MAbs reacted specifically with human NoV GII.4-2009 virus-like particles (VLPs), and some MAbs showed cross-reactivity with other GII.4 variant VLPs. Expressed human GII NoV VP1-recombinant protein and MAbs specific to this protein can be used as useful reagents for detecting and characterizing human NoV.

Sequence Analysis and Expression of ORF5 in Korean Isolate of Porcine Reproductive and Respiratory Syndrome Virus

Porcine reproductive and respiratory syndrome virus (PRRSV) is the causative agent of reproductive failure and respiratory disorders in pigs. The viral genome consists of eight overlapping open reading frames (ORFs). ORF5 encodes one of the major glycoproteins and is known as an immunologically important structural protein associated with virus neutralization. The ORF5 gene of the Korean PRRSV isolate, CNV-1, was amplified by reverse transcription-polymerase chain reaction (RT-PCR), cloned and sequenced. The nucleotide and amino acid sequences of CNV-1 ORF5 shared 91% and 83% identity, respectively, with the American isolate (VR2332 strain) and 57% and 49% identity with the European isolate. For the expression and easy purification of ORF5, the cDNA containing the complete ORF5 sequence fused in-frame with sequence encoding glutathione S-transferase (GST) was cloned into a baculovirus transfer vector and transfected into Sf9 cells. The GST-ORF5 fusion protein produced in Sf9 cells was detected by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blotting. Sequencing results confirmed that the recombinant baculovirus from Sf9 cells contains the complete ORF5 gene. Further studies in this direction will address whether ORF5 can be a good candidate for a subunit vaccine against PRRSV in Korea.

Genetic Diversity of Echovirus 6 Strains Circulating in Korea

Echovirus 6 (ECV6) is the prevalent serotype detected in aseptic meningitis cases in Korea. To analyze the genetic variation of ECV6 isolates recently circulating in Korea, we determined the partial sequence of the VP1 capsid gene from 22 Korean ECV6 isolates and performed pairwise analysis against 42 reference strains from the GenBank database using MegAlign. The 22 Korean ECV6 isolates formed 3 distinct genetic clusters: Kor-lineage I, II, and III. The Korean ECV6 strains showed significant genetic diversity with 14.8~22.8% nucleotide divergence among the 3 different lineages. These ECV6 Kor-lineages were demonstrated to belong to different genetic clusters using VP1 sequence-based phylogenetic analysis, implying that the recently circulating Korean ECV6 strains have potential antigenic variation.

Intracellular Localization of the Porcine Reproductive and Respiratory Syndrome Virus Nucleocapsid Protein

Porcine reproductive and respiratory syndrome virus (PRRSV) is a small enveloped, positive-stranded RNA virus belonging to the family Arteriviridae. It causes the porcine reproductive and respiratory syndrome in swine. The virus has 7 structural proteins: Of the seven, the N protein is the nucleocapsid that comprises a core of the virus particle. We have expressed the N protein of PRRSV PL97-1/LP1 strain using a heterologous gene expression vector derived from Sindbis virus, called pSinrep5. Immunofluorescence analysis showed that the N proteins were mainly found in the cytoplasm as well as in the nucleus of BHK-21 cells transfected with pSinrep5-N-derived RNA. Moreover, expression of the N protein did not change the incompetence of RNA replication of Mutant/nt14900 that lacks a 3' cis-acting replication element and the efficiency of RNA replication of Mutant/nt14800 that has a low level of RNA replication. Overall, our findings are consistent with previous results and help to understand a role of the N protein in PRRSV biology.

Isolation and Characterization of G9 Human Rotaviruses

Group A rotaviruses are the most common causes of gastroenteritis among infants and young children. The outer capsid layer of the virus is composed of two structural proteins, VP4 and VP7, and they play important roles in protection by eliciting neutralization antibodies. Group A rotaviruses are subdivided into distinct G and P serotypes according to the antigenic differences of the VP7 and VP4, respectively. Rotavirus G9 serotype was thought to be the fifth most common serotype circulating among the population worldwide. In this study, G9 human rotaviruses (HRV) were isolated from fecal samples using MA104 cells and characterized. Characteristic cytopathic effects of rotavirus were observed and rotaviral antigens were confirmed by indirect immunofluorescence antibody test in MA104 cells inoculated with isolated HRV strains. The nucleotide sequences of the VP7 gene of Korean G9 HRV isolated in this study were determined and compared with those of other recent and prototype G9 rotavirus strains from other parts of the world. Also, the nucleotide sequences of VP4 and NSP4 gene of Korean G9 HRV were determined and compared with those of other rotavirus strains from other countries. The results showed that the Korean HRV isolates belong to a G9, P[8] and NSP4 B genotype. The Korean G9 HRV isolates and their nucleotide sequence data would be usefully applied for the vaccine development of HRV in the near future.

5' and 3' cis-Acting RNA Elements Required for RNA Replication of Porcine Reproductive and Respiratory Syndrome Virus

Porcine reproductive and respiratory syndrome virus (PRRSV), a member of the genus Arterivirus in the family Arteriviridae, is the most important viral pathogens in swine industry worldwide. Here, we have investigated 5' and 3' cis-acting RNA elements required for PRRSV genome replication. Using the infectious PRRSV cDNA, we have manipulated the genomic RNA to generate mutant genomic RNAs, transfected these mutants into susceptible MARC-145 cells, and examined the competence of RNA replication. We found three genetic factors that were essential for viral replication. First, the cap structure present at the 5'-end of the genome was absolutely required for RNA replication. Secondly, polyadenylation of the genomic RNA at the 3'-end was also essential for RNA replication. Thirdly, approximately 100-nucleotide region just upstream of the N protein-coding region was crucial for genomic RNA replication. Taken together, our findings indicate that replication of PRRSV genomic RNA requires three important cis-acting RNA elements: 5' cap structure, 3' poly(A) motif, and an internal sequence of about 100 nucleotides. Further investigation is needed to elucidate the molecular mechanism(s) of how these elements act on PRRSV genome replication.

Determination of Porcine Rotavirus Serotypes by RT-PCR and RFLP Analysis

G and P tying of group A porcine rotaviruses (P(o)RV) from field fecal samples were performed using reversetranscriptase polymerization chain reaction (RT-PCR) and restriction fragment length polymorphism (RFLP) analysis. After amplifying full length VP7 and partial length VP4 genes, restriction endonucleases were used to digest and analyze the cutting pattern of the gene products. After analysis of digests with restriction endonucleases, seven and six RFLP types were observed for VP7 and VP4, respectively. The G typing analysis of 50 fecal samples revealed that 68% (34/50) were G4, which included G4-like (22/50); 22% (11/50) were G5; 6% (3/50) were G4 and G5 mixed types. The P typing analysis of the same fecal samples revealed that 36% (18/50) were P2B, 52% (26/50) were P9, 1 sample (2%) was a mixture of P2B and P9. Combinations of G and P types, the G4P2B and G4P9 types including G4-like accounted for 26% (13/50) and 32% (16/50), respectively. The G5P2B and G5P9 type also represented 4% (2/50) and 18% (9/50) of the samples. No G3 and G11 or other new P types were identified from the samples tested. Information on the G and P types and G/P combinations in the field fecal samples is useful for developing more effective PoRV vaccines and understanding the epidemiology of PoRV infections in the field.

Evidence for the Presence of a cis-acting Element in the Coding Region of the Japanese Encephalitis Virus Capsid Protein

Japanese encephalitis virus (JEV) is a member of mosquito-borne flaviviruses. To investigate whether there is a cis-acting genetic element in the coding region of the JEV C protein, which is required for viral replication, we generated four mutants by introducing a various size of deletions in each structural protein-coding region, designated as pJEV/Rep/deltaCC/LUC, pJEV/Rep/deltaC/LUC, pJEV/Rep/deltaprM/LUC, and pJEV/Rep/deltaE/LUC, of these, all replicons except for pJEV/Rep/deltaCC/LUC were competent in replication. Since pJEV/Rep/deltaCC/LUC is the same as pJEV/Rep/ deltaC/LUC except for an additional 5' deletion (nt 132~201) in the coding region of the C protein, this region appeared to be essential for RNA replication. This is consistent with the proposed cyclization sequence motif in the 5' region of the C gene, which has been recently shown to be required for replication in other mosquito-borne flaviviruses such as DV, YFV, KUN, and WNV. Thus, our results suggest that a cis-acting genetic element in the coding region of the JEV C protein may play an important role in RNA replication. This study will facilitate the current understanding of JEV RNA replication.

Expression of the Structural Proteins of Japanese Encephalitis Virus

Japanese encephalitis virus (JEV) is one of the most important human pathogens, which causes the permanent neuropsychiatric sequelae and even fatal diseases with high mortality and morbidity, especially among children. In this study, we expressed the structural proteins (C, prM, and E) of JEV using a Sindbis virus-based heterologous gene expression vector, the pSinRep5. We designed two expression vectors (pSinRep5/JEV C-E and pSinRep5/JEV C-NS1), which encode the precise coding sequence of JEV C-E and JEV C-NS1 proteins, respectively. These cloned JEV structural protein genes were designed to express under the Sindbis virus subgenomic promoter. Upon the transfection and expression of the pSinRep5/JEV C-E or pSinRep5/JEV C-NS1 plasmid, the transfected cells expressed approximately 55 kDa JEV E prtiens. As designed, the JEV NS1 proteins were expressed only in the SinRep5/JEV C-NS1 RNAtransfected cells. In addition, we found in the pSinRep5/JEV C-NS1-transfected cells that the viral proteins were predominantly localized around the perinuclear membranes. On the other hand, cytoplasmic staining was mainly observed in the pSinRep5/JEV C-E RNA-transfected cells in the absence of NS1 protein. Thus, our system will provide a useful tool to dissect intracellular membrane localization signals located in the JEV structural proteins without handling the infectious JEV viral particles and to characterize viral morphogenesis of this pathogen.

Characterization of Antigenic Sites on the Rinderpest Virus N Protein Uusing Monoclonal Antibodies

The N protein of the rinderpest virus (RPV) was analyzed topologically and antigenically by using anti-N monoclonal antibodies (Mabs). Ten Mabs were raised against the N protein of the RPV. At least six non-overlapping antigenic sites (sites A-F) were delineated by competitive binding assays using biotinylated Mabs. Of them 5 sites (A, C, D, E and F) on the N protein were recognized by RPV-specific Mabs in ELISA and IFA while site B was recognized by Mabs reacting with both RPV and PPRV. Non- reciprocal competition was found among sites C, D and E. Recombinant RPV N protein after exposure to 0.2% SDS exhibited higher ELISA titers in all Mabs recognizing 6 sites. Four sites (A, B, E and F) on 2% SDS-treated N protein lost completely reactivity with Mabs while the remaining sites (C and D) on the protein retained their antigenicity to some degree. It indicates that two sites (C and D) were sequential. Six representative Mabs bound to each site exhibited competition with rinderpest antibodies in a blocking ELISA, indicating that the sites were actively involved in antigenicity in cattle.

Localization of Antigenic Sites at the Amino-terminus of Rinderpest Virus N Protein Using Deleted N Mutants and Monoclonal Antibody

The nucleocapsid (N) protein of rinderpest virus (RPV) is highly conserved, immunogenic, and abundantly expressed during infection. Six antigenic sites (sites A, B, C, D, E and F), defined previously by a competitive binding assay using corresponding monoclonal antibodies (Mabs), have been further localized by immunoassays using deleted N mutants. Five different forms of RPV N protein, containing residues aa 1-79, aa 1-149, aa 1-421, aa 414-525 and aa 1-525, were expressed as glutathione S transferase (GST) fusion proteins (designated as GST-N1-79, GST-N1-149, GST-N1-421, GST-N414-525, and GST-N1-525, respectively) in E.coli BL21 cells. In ELISA using deleted N mutants, Mabs recognizing sites A, B, C, D and E reacted with 3 GST fusion proteins (GST-N1-149, GST-N1-421 and GST-N1-525), indicating that they are located at aa 80-149. Mab recognizing site F reacted with 4 GST fusion proteins (GST-N1-79, GST-N1-149, GST-N1-421 and GST-N1-525), indicating that site F is located at aa 1-79. Identification of the amino-terminal antigenic sites of the N protein would provide antigen basis for developing sensitive and specific diagnostic reagents for RPV, although it remains to be further investigated antigenic sites at the carboxyl-terminus.

Nucleotide Sequencing and Expression of Type 2 Porcine Circoviruses Isolated in Korea

Porcine circovirus (PCV) is a small, nonenveloped virus that contains a single-stranded circular DNA genome of about 1.76 Kb and belongs to the family Circoviridae. The PCV-2 was thought to be one of the causative agents for postweaning multisystemic wasting syndrome (PMWS) in pigs. In this study, the complete genome of two PCV-2 Korean isolates (KSY-1 and KSY-2) were sequenced and characterized. Also, the ORF2 gene of KSY-1 isolate was expressed in baculovirus expression system and the expressed protein was characterized. The sequence data indicated that the PCV-2 genome of two Korean isolates were 1,768 bases in length and encoded 2 major proteins, Rep (ORF1, 314 amino acids, 37 kDa) and a capsid (ORF2, 233 amino acids, 28~30 kDa) protein. There were 5 glycosylation sites and stem-loop structures with the nonanucleotide (5-AAGTATTAC-3), typically seen in PCV-2. Compared to nucleotide sequences of PCV-1 and PCV-2 reference strains, two Korean isolates were closely related; that is, they showed 98% homology in nucleotide sequence each other. Also, they showed 95~99% homology in nucleotide sequences with those of PCV-2 isolates but 76% similarity with those of PCV-1 reference strains. A phylogenetic analysis revealed that nucleotide sequences of Korean isolates were close to those of PCV-2 (AF055392) isolated in Canada. The baculovirusexpressed ORF2 migrated at 30 kDa and reacted with PCV-2 specific antiserum by indiect fluorescent antibody and Western blot analyses. It is concluded that our results could be valuable to understand the molecular characteristics of PCV-2 and to develop diagnostic methods for PCV-2 infections.

Seroprevalence of Antibody to Procine Reproductive and Respiratory Syndrome Virus in Diagnostic Submissions

During the period from January to December of 2001, a total of 3,391 swine sera were submitted to our laboratory from 256 farms for the diagnosis of porcine reproductive and respiratory syndrome (PRRS). The antibody to porcine reproductive and respiratory syndrome virus (PRRSV) was tested by the indirect immunofluorescent antibody (IFA) test. Of the 256 farms tested, 230 farms (89.8%) were positive for the PRRSV antibody. The overall seroprevalence of the PRRSV antibody was 52.1% (1765/3391). Most of the pigs seemed to be infected with PRRSV at around 50 to 60 days old. The seroprevalence of the antibody became higher with age, and peaked at around 100 days old. More than one-third of the adult pigs, including boars, gilts, and sows, was positive for the PRRSV antibody. The infection of PRRSV was chronic and confined to growers and/or finishers in most farms. However, the antibody was detected in all production phases at some farms.

Production and Characterization of Egg Yolk Antibodies to Human Rotavirus

No abstract available.

Expression of Nonstructural Protein 4 (NSP4) of Bovine Rotavirus Isolated in Korea

No abstract available.

Sequence Analysis of the VP4 Gene of Rotavirus Isolated from an Infant in Korea

No abstract available.

Distribution of Rotavirus G Serotypes in ChungJu Area / 대한소아소화기영양학회지

PURPOSE: It is important to have the epidemiologic data of rotavirus serotypes for the application of polyvalent rotavirus vaccines. Epidemiological studies of rotavirus serotypes in Korea have been reported only in limited areas with small number of cases. Authors tried to investigate the distribution of rotavirus G serotypes in ChungJu area with RT-PCR. METHOD: Stool specimens were collected from 202 children with acute diarrheal symptoms, who admitted to or visited Kon-Kuk University Hospital in ChungJu from June 1998 to May 1999. Samples were screened for rotavirus with EIA method (TestPack Rotavirus, Abbott Laboratories) and rotavirus G Serotypes were determined by RT-PCR. RESULTS: Rotavirus was positive in 46.6%. The incidence of G serotypes was as follows; G1 10%, G2 10%, G3 28%, G4 26%, and G9 20%. There were three cases of multiple serotypes; G1 with G9, G2 with G9, and G4 with G9. Serotype of G8 was not found. CONCLUSION: The proportion of G serotypes in ChungJu is much different from previous reports. Serotype of G9 was found which had not been reported in Korean children till now. Long term plans for the investigation of rotavirus serotypes must be needed in wide area.