Junjun Shao

Promising Multiple-Epitope Recombinant Vaccine against Foot-and-Mouth Disease Virus Type O in Swine

ABSTRACT In order to develop a completely safe immunogen to replace the traditional inactivated vaccine, a tandem-repeat multiple-epitope recombinant vaccine against foot-and-mouth disease (FMD) virus (FMDV) type O was developed. It contained three copies each of residues 141 to 160 and 200 to 213 of VP1 of the O/China/99 strain of FMDV coupled with a swine immunoglobulin G heavy-chain constant region (scIgG). The data showed that the multiple-epitope recombinant vaccine elicited high titers of anti-FMDV specific antibodies in swine at 30 days postvaccination (dpv) and conferred complete protection against a challenge with 103 50% swine infective doses of the O/China/99 strain. The anti-FMDV specific antibody titers were not significantly different between the multiple-epitope recombinant vaccine and the traditional vaccine (t test, P > 0.05). The number of 50% pig protective doses was 6.47, which is higher than the number recommended by the World Organization for Animal Health. The multiple-epitope recombinant vaccine resulted in a duration of immunity of at least 6 months. We speculate that the multiple-epitope recombinant vaccine is a promising vaccine that may replace the traditional inactivated vaccine for the prevention and control of FMD in swine in the future.

Effective inhibition of foot-and-mouth disease virus (FMDV) replication in vitro by vector-delivered microRNAs targeting the 3D gene

BackgroundFoot-and-mouth disease virus (FMDV) causes an economically important and highly contagious disease of cloven-hoofed animals. RNAi triggered by small RNA molecules, including siRNAs and miRNAs, offers a new approach for controlling viral infections. There is no report available for FMDV inhibition by vector-delivered miRNA, although miRNA is believed to have more potential than siRNA. In this study, the inhibitory effects of vector-delivered miRNAs targeting the 3D gene on FMDV replication were examined.ResultsFour pairs of oligonucleotides encoding 3D-specific miRNA of FMDV were designed and selected for construction of miRNA expression plasmids. In the reporter assays, two of four miRNA expression plasmids were able to significantly silence the expression of 3D-GFP fusion proteins from the reporter plasmid, p3D-GFP, which was cotransfected with each miRNA expression plasmid. After detecting the silencing effects of the reporter genes, the inhibitory effects of FMDV replication were determined in the miRNA expression plasmid-transfected and FMDV-infected cells. Virus titration and real-time RT-PCR assays showed that the p3D715-miR and p3D983-miR plasmids were able to potently inhibit the replication of FMDV when BHK-21 cells were infected with FMDV.ConclusionOur results indicated that vector-delivered miRNAs targeting the 3D gene efficiently inhibits FMDV replication in vitro. This finding provides evidence that miRNAs could be used as a potential tool against FMDV infection.

Lentviral-mediated RNAi to inhibit target gene expression of the porcine integrin αv subunit, the FMDV receptor, and against FMDV infection in PK-15 cells

BackgroundshRNA targeting the integrin αv subunit, which is the foot-and-mouth disease virus (FMDV) receptor, plays a key role in virus attachment to susceptible cells. We constructed a RNAi lentiviral vector, iαv pLenti6/BLOCK -iT™, which expressed siRNA targeting the FMDV receptor, the porcine integrin αv subunit, on PK-15 cells. We also produced a lentiviral stock, established an iαv-PK-15 cell line, evaluated the gene silencing efficiency of mRNA using real-time qRT-PCR, integrand αv expression by indirect immunofluorescence assay (IIF) and cell enzyme linked immunosorbent assays (cell ELISA), and investigated the in vivo inhibitory effect of shRNA on FMDV replication in PK-15 cells.ResultsOur results indicated successful establishment of the iαv U6 RNAi entry vector and the iαv pLenti6/BLOCK -iT expression vector. The functional titer of obtained virus was 1.0 × 106 TU/mL. To compare with the control and mock group, the iαv-PK-15 group αv mRNA expression rate in group was reduced by 89.5%, whilst IIF and cell ELISA clearly indicated suppression in the experimental group. Thus, iαv-PK-15 cells could reduce virus growth by more than three-fold and there was a > 99% reduction in virus titer when cells were challenged with 102 TCID50 of FMDV.ConclusionsIαv-PK-15 cells were demonstrated as a cell model for anti-FMDV potency testing, and this study suggests that shRNA could be a viable therapeutic approach for controlling the severity of FMD infection and spread.

Complete nucleotide sequence of a Chinese serotype Asia1 vaccine strain of foot-and-mouth disease virus.

The full-length nucleotide sequence of the Chinese vaccine strain Asia1/YNBS/58 of foot-and-mouth disease virus (FMDV) was determined. The results showed that the complete genome of YNBS/58 is 8,164 nucleotides (nt) in length including a 1,061-nt 5′ untranslated region (UTR), a 6,990-nt open reading frame (ORF), and a 113-nt 3′ UTR. Genome sequences of Asia1/YNBS/58 and other known FMDV strains were compared. The homology analysis indicated that non-structural proteins are more conserved than structural proteins in FMDV and that the 5′ UTR is more conserved than the 3′ UTR. Phylogenetic analysis revealed that Asia1/YNBS/58 is clustered in the Asia1 serotype and is linked to three other isolates, Asia1/IND/63/72, Asia1/3kimron/63, and Asia1/2ISRL/63, suggesting that they have a close genetic relationship. The VP1-, VP2-, and VP3-based phylogenetic trees divided into distinct clusters according to the different serotypes, while other gene-based phylogenetic trees exhibited some degree of intercrossing among serotypes. According to the nucleotide similarities between Asia1/YNBS/58 and two recent Chinese Asia1 isolates, Asia1/HKN/05, and Asia1/JS/05, each forms a distinct genotype. This study is the first description of the full-length genomic sequence of FMDV Chinese serotype Asia1.

Induction of protection against foot-and-mouth disease virus in cell culture and transgenic suckling mice by miRNA targeting integrin αv receptor.

Foot-and-mouth disease virus (FMDV) is an RNA virus that causes a highly contagious disease in domestic and wild cloven-hoofed animals. Although vaccination has been used to protect animals against FMDV, there are shortcomings in the efficacy of the available vaccines. RNA interference (RNAi) is triggered by small RNA molecules, including short interfering RNAs and microRNAs (miRNAs), and the use of RNAi-based methods have demonstrated promise as an alternative method of controlling the transmission of FMDV. However, the method of delivery, short duration of siRNA and miRNA in vivo, and the genetic variability of FMDV confound the use of RNAi-based strategies for FMDV control. FMDV has been shown to exploit host-cell integrins as cell-surface receptors to initiate infection. We selected the gene for the integrin αv subunit as an RNAi target, and constructed three αv-specific miRNA expression plasmids. The effects of these miRNAs on FMDV infection were examined in PK-15 cells and transgenic suckling mice. In PK-15 cells, the expression of the αv-specific miRNAs significantly inhibited the expression of integrin αv receptor and decreased FMDV infection. The transgenic mice were generated by integrating the αv-specific miRNA expression cassette using pronuclear microinjection. When challenged with a dose of FMDV ten times greater than the LD50, the survival rate of transgenic suckling mice was approximately six-fold higher than that of their non-transgenic littermates, indicating that the interference of the miRNAs significantly reduced FMDV infection in the transgenic mice. This is the first report of limiting FMDV attachment to cellular receptors using miRNA-mediated gene knock down of cell-surface receptors to significantly reduce FMDV infection in cell culture and transgenic suckling mice.

Development of a serotype colloidal gold strip using monoclonal antibody for rapid detection type Asia1 foot-and-mouth disease

BackgroundIn this study, we developed a rapid, one step colloid gold strip (CGS) capable of specifically detecting type Asia1 foot-and-mouth disease virus (FMDV). We have produced two monoclonal antibodies (mAb) to type Asia1 FMD (named 1B8 and 5E2). On the test strip, the purified 1B8 labelled with the colloidal gold was used as the detector, and the purified 5E2 and goat anti-mouse antibodies were wrapped onto nitrocellulose (NC) membranes as the test and the control line, respectively. The rapid colloidal gold stereotype diagnostic strip was housed in a plastic case.ResultsIn specificity and sensitivity assay, there was no cross-reaction of the antigen with the other type of FMD and SVDV. The detection sensitivity was found to be as high as 10-5 dilution of Asia1/JSL/05 (1 × 107.2TCID50/50 μL). There was excellent agreement between the results obtained by CGS and reverse indirect hemagglutination assay (RIHA), and the agreement can reach to 98.75%.ConclusionWe developed colloidal gold strips that have good qualities and does not require specialized equipment or technicians. This method provided a feasible, convenient, rapid, and effective for detecting type Asia1 FMDV in the fields.

Molecular characterization and expression analysis of porcine integrins αvβ3, αvβ6 and αvβ8 that are potentially involved in FMDV infection

In the present study, we report the sequences and characterization of the porcine integrin cDNAs encoding alphav, beta3, beta6 and beta8 subunits and compare them to those of other species. The coding sequences for the porcine alphav, beta3, beta6 and beta8 subunits were found to be 3141, 2289, 2367 and 2304 nucleotides in length, encoding 1046, 762, 788 and 767-amino-acid-residue protein, respectively. The porcine integrin alphav, beta3, beta6 and beta8 subunit shares common structural and functional elements with their counterparts from the other species. Phylogenetic trees showed that the porcine alphav, beta3, beta6 and beta8 were clustered into the Artiodactyla group, together with those of camels, sheep, and cattle, that are susceptible to FMDV infection. Real-time RT-PCR was used to investigate expression of the integrins alphavbeta3, alphavbeta6 and alphavbeta8 in different tissues of pigs in order to determine the role of these receptors in tissue tropism. Expression analysis showed that alphavbeta6 and alphavbeta8 mRNA expression were detected at high levels in tissues known to support replication of FMDV. Tissue distribution pattern of alphavbeta3 mRNA seems to be unrelated to the known tissue tropism of FMDV. This study provided the first data of porcine integrins for the further studies of the FMDV pathogenesis in pigs.

B cell epitopes within VP1 of type O foot-and-mouth disease virus for detection of viral antibodies.

In this study, the coding region of type O FMDV capsid protein VP1 and a series of codon optimized DNA sequences coding for VP1 amino acid residues 141–160 (epitope1), tandem repeat 200–213 (epitope2 (+2)) and the combination of two epitopes (epitope1–2) was genetically cloned into the prokaryotic expression vector pPROExHTb and pGEX4T-1, respectively. VP1 and the fused epitopes GST-E1, GST-E2 (+2) and GST-E1-2 were successfully solubly expressed in the cytoplasm of Escherichia coli and Western blot analysis demonstrated they retained antigenicity. Indirect VP1-ELISA and epitope ELISAs were subsequently developed to screen a panel of 80 field pig sera using LPB-ELISA as a standard test. For VP1-ELISA and all the epitope ELISAs, there were clear distinctions between the FMDV-positive and the FMDV-negative samples. Cross-reactions with pig sera positive to the viruses of swine vesicular disease virus that produce clinically indistinguishable syndromes in pigs or guinea pig antisera to FMDV strains of type A, C and Asia1 did not occur. The relative sensitivity and specificity for the GST-E1 ELISA, GST-E2 (+2), GST-E1-2 ELISA and VP1-ELISA in comparison with LPB-ELISA were 93.3% and 85.0%, 95.0% and 90%, 100% and 81.8%, 96.6% and 80.9% respectively. This study shows the potential use of the aforementioned epitopes as alternatives to the complex antigens used in current detection for antibody to FMDV structural proteins.

Application of VP1 protein to develop monoclonal antibody against foot-and-mouth disease virus Asia1 type

In order to develop an anti-FMDV Asia1 type monoclonal antibody (mAb), BABL/c mice were immunized with recombinant FMDV VP1 protein. Three mAbs, 1B8, 5E1 and 5E2, were then further optimized. The result indicated that prepared anti-FMDV Asia1 mAbs had no cross-reactivity with Swine vesicular disease (SVD) and FMDV O, A and C type antigen. Their titers in abdomen liquor were 1:5×106, 1:2×106 and 1:5×106, respectively. 1B8 was found to be of IgG1 subtype, 5E1 and 5E2 belonged to IgG2b subtype. In this study, the prepared mAbs are specific for detecting FMDV type Asia1, and is potentially useful for pen-side diagnosis.

Research paperBactrian camel (Camelus bactrianus) integrins αvβ3 and αvβ6 as FMDV receptors: Molecular cloning, sequence analysis and comparison with other species

Integrins are heterodimeric adhesion receptors that participate in a variety of cell-cell and cell-extracellular matrix protein interactions. Many integrins recognize RGD sequences displayed on extracellular matrix proteins and the exposed loops of viral capsid proteins. Four members of the alphav integrin family of cellular receptors, alphavbeta3, alphavbeta6, alphavbeta1 and alphavbeta8, have been identified as receptors for foot-and-mouth disease virus (FMDV) in vitro, and integrins are believed to be the receptors used to target epithelial cells in the infected animals. To analyse the roles of the alphav integrins from a susceptible species as viral receptors, we have cloned Bactrian camel alphav, beta3 and beta6 integrin cDNAs and compared them to those of other species. The coding sequences for Bactrian camel integrin alphav, beta3 and beta6 were found to be 3165, 2289 and 2367 nucleotides in length, encoding 1054, 762 and 788 amino acids, respectively. The Bactrian camel alphav, beta3 and beta6 subunits share many structural features with homologues of other species, including the ligand binding domain and cysteine-rich region. Phylogenetic trees and similarity analyses showed the close relationships of integrin genes from Bactrian camels, pigs and cattle, which are each susceptible to FMDV infection, that were distinct from the orders Rodentia, Primates, Perissodactyla, Carnivora, Galliformes and Xenopus. We postulate that host tropism of FMDV may in part be related to the divergence in integrin subunits among different species.