The immunomodulatory peptide bursopentin (BP5) enhances proliferation and induces sIgM expression in DT40 cells.

BACKGROUND: In the recent past, many studies have been focused on extracts of BF and multiple biologically active factors and their effects on humoral immune system in chickens and birds. However, the mechanism of those immunomodulatory peptides on the B lineage cells proliferation and antibody production in chicken is fairly unknown. DT40 cell line, an avian leucosis virus-induced chicken pre-B cell line, expresses immunoglobulin M (IgM) isotype B cell reporter in the plasma membrane. There are many evidences suggesting that DT40 cells are best characterized as a bursal stem cell line. Because of the unique characteristics of DT40 cell line, it has been widely used to observe biological processes of pre-B lymphocyte cell within living cells. METHODS: The chicken B cell line DT40 was cultured in Roswell Park Memorial Institute (RPMI) 1640 medium and cytotoxicity was studied. Also, effect of BP5 on cell proliferation and cell cycle distribution of DT40 cells was studied. Also, the effect of BP5 on sIgM mRNA expression was studied by using real-time PCR. OBJECTIVES: To investigat the effects of Bursopentin (Cys-Lys-Arg-Val-Tyr, BP5) on a chicken promyelocyte cell line DT40, assays of cell proliferation, cell cycle distribution, detection of surface immunoglobulin G (sIgM) mRNA expression and gene microarray analysis were performed. RESULTS: The results showed that BP5 displayed concentration-dependent effects on the proliferation, cell cycle, and sIgM mRNA expression in DT40 cells. And the analysis of expression profiles identified a signature set of 3022 genes (1254 up regulated genes, 1762 down regulated genes), which clearly discriminated the BP5-treated DT40 cells from control with high certainty (P≤0.02). The results of microarray analysis were confirmed by quantitative reverse transcription-polymerase chain reaction for 12 of the differentially expressed genes. CONCLUSION: Theses findings showed the immuno-activity effect of BP5 on B lymphocyte and indicated that BP5 treatment regulated eight signaling pathways, in which Toll-like signaling pathway was the most significant enrichment pathway.

The Regulatory Functions of a New Tetrapeptide from the Bursa of Fabricius on AIV Vaccine Immunization and Antibody Production.

BACKGROUND: Understanding the regulatory functions of the biological peptide from the humoral central immune organ bursa of Fabricius on vaccine immune responses and antibody production is of vital importance. OBJECTIVES: Here we thoroughly verified the immunomodulatory functions of the new tetrapeptide BP4 from the bursa of Fabricius on vaccine immune responses in mice and chicken immunizaiton model, and on potential intracellular signaling during antibody production. METHOD: BP4 was isolated and identified by Reverse Phase High Performance Liquid Chromatography and matrix-assisted laser desorption ionization time of flight mass spectrometry. immunomodulatory functions of BP4 was verified by AIV vaccine immunization on mice and chickens regarding roles in vivo, by monitoring the impact of signalling inhibitors in hybridoma cells on antibody production in vitro. RESULTS: Our investigation revealed the strong inducing roles of new isolated BP4 on immune responses in mice immunization, the immunomodulatory effects in the immunized chicken, four potential key intracellular signaling during antibody production in hybrdoma cells. CONCLUSION: The new bursal-derived peptide BP4 was isolated and identified, and the immunomodulatory effects on antigen-specific immune responses in vivo and in vitro were verified, suggesting BP4 might be highly relevant to the humoral immune responses, and PI3K/Akt, p38 MAPK, NF-κB and tyrosine phosphorylation signaling might be the key activated intracellular signaling during antibody production during BP4 stimulation, which provided a novel potential adjuvant candidate for vaccine immunization improvement and precaution on animal epidemic disease.

Entry of Classical Swine Fever Virus into PK-15 Cells via a pH-, Dynamin-, and Cholesterol-Dependent, Clathrin-Mediated Endocytic Pathway That Requires Rab5 and Rab7.

UNLABELLED: Classical swine fever virus (CSFV), a member of the genus Pestivirus within the family Flaviviridae, is a small, enveloped, positive-strand RNA virus. Due to its economic importance to the pig industry, the biology and pathogenesis of CSFV have been investigated extensively. However, the mechanisms of CSFV entry into cells are not well characterized. In this study, we used systematic approaches to dissect CSFV cell entry. We first observed that CSFV infection was inhibited by chloroquine and NH4Cl, suggesting that viral entry required a low-pH environment. By using the specific inhibitor dynasore, or by expressing the dominant negative (DN) K44A mutant, we verified that dynamin is required for CSFV entry. CSFV particles were observed to colocalize with clathrin at 5 min postinternalization, and CSFV infection was significantly reduced by chlorpromazine treatment, overexpression of a dominant negative form of the EPS15 protein, or knockdown of the clathrin heavy chain by RNA interference. These results suggested that CSFV entry depends on clathrin. Additionally, we found that endocytosis of CSFV was dependent on membrane cholesterol, while neither the overexpression of a dominant negative caveolin mutant nor the knockdown of caveolin had an effect. These results further suggested that CSFV entry required cholesterol and not caveolae. Importantly, the effect of DN mutants of three Rab proteins that regulate endosomal traffic on CSFV infection was examined. Expression of DN Rab5 and Rab7 mutants, but not the DN Rab11 mutant, significantly inhibited CSFV replication. These results were confirmed by silencing of Rab5 and Rab7. Confocal microscopy showed that virus particles colocalized with Rab5 or Rab7 during the early phase of infection within 45 min after virus entry. These results indicated that after internalization, CSFV moved to early and late endosomes before releasing its RNA. Taken together, our findings demonstrate for the first time that CSFV enters cells through the endocytic pathway, providing new insights into the life cycle of pestiviruses. IMPORTANCE: Bovine viral diarrhea virus (BVDV), a single-stranded, positive-sense pestivirus within the family Flaviviridae, is internalized by clathrin-dependent receptor-mediated endocytosis. However, the detailed mechanism of cell entry is unknown for other pestiviruses, such as classical swine fever (CSF) virus (CSFV). CSFV is the etiological agent of CSF, a highly contagious disease of swine that causes numerous deaths in pigs and enormous economic losses in China. Understanding the entry pathway of CSFV will not only advance our knowledge of CSFV infection and pathogenesis but also provide novel drug targets for antiviral intervention. Based on this objective, we used systematic approaches to dissect the pathway of entry of CSFV into PK-15 cells. This is the first report to show that the entry of CSFV into PK-15 cells requires a low-pH environment and involves dynamin- and cholesterol-dependent, clathrin-mediated endocytosis that requires Rab5 and Rab7.

MicroRNA transcriptome profiling of mice brains infected with Japanese encephalitis virus by RNA sequencing.

Japanese encephalitis (JE) is a mosquito borne viral disease, caused by Japanese encephalitis virus (JEV) infection producing severe neuroinflammation in the central nervous system (CNS) with the associated disruption of the blood brain barrier. MicroRNAs (miRNAs) are a family of 21-24 nt small non-coding RNAs that play important post-transcriptional regulatory roles in gene expression and have critical roles in virus pathogenesis. We examined the potential roles of miRNAs in JEV-infected suckling mice brains and found that JEV infection changed miRNA expression profiles when the suckling mice began showing nervous symptoms. A total of 1062 known and 71 novel miRNAs were detected in JEV-infected group, accompanied with 1088 known and 75 novel miRNAs in mock controls. Among these miRNAs, one novel and 25 known miRNAs were significantly differentially expressed, including 18 up-regulated and 8 down-regulated miRNAs which were further confirmed by real-time PCR. Gene ontology (GO) and signaling pathway analysis of the predicted target mRNAs of the modulated miRNAs showed that they are correlated with the regulation of apoptosis, neuron differentiation, antiviral immunity and infiltration of mouse brain, and the validated targets of 12 differentially expressed miRNAs were enriched for the regulation of cell programmed death, proliferation, transcription, muscle organ development, erythrocyte differentiation, gene expression, plasma membrane and protein domain specific binding. KEGG analysis further reveals that the validated target genes were involved in the Pathways in cancer, Neurotrophin signaling pathway, Toll like receptor signaling pathway, Endometrial cancer and Jak-STAT signaling pathway. We constructed the interaction networks of miRNAs and their target genes according to GO terms and KEGG pathways and the expression levels of several target genes were examined. Our data provides a valuable basis for further studies on the regulatory roles of miRNAs in JE pathogenesis.

Isolation and immunomodulatory activity of bursal peptide, a novel bursal peptide from the chicken bursa of Fabricius.

The bursa of Fabricius (BF), which is unique to birds, serves as the central humoral immune organ and plays a significant role in B lymphocyte differentiation. In this study, a new bursal peptide (BP-IV) was isolated from BF, which promoted colony-forming unit pre-B formation and regulated B cell differentiation. BP-IV also exerted immunomodulatory effects on antigen-specific immune responses via both humoral and cellular immunity in chicken and mice that had been immunized with inactivated avian influenza virus (AIV; H9N2 subtype), including enhancing AIV-specific antibody and cytokine production. The results of this study provided novel insights into the use of a potential candidate reagent for B cell development and future immuno-pharmacological use.

The potential mechanism of bursal-derived BP8 on B cell developments.

The bursa of Fabricius, the key humoral immune organ unique to birds, is critical for B cell differentiation and antibody production. BP8 (AGHTKKAP) is a novel immunomodulatory peptide that regulates B-cell development. Gene microarray was used to investigate the mechanism of BP8 on B cell development. BP8 regulated expressions of 1,570 genes that were involved in retinol metabolism, the Wnt signaling pathway, MAPK pathway, Jak-Stat pathway, Notch signaling pathway, cytokine-cytokine receptor interaction, and Ca(2+) signals. Finally, BP8 triggered ADH7 and RDH10 expression, interacted with retinol binding protein, and regulated retinol uptake in vitro and vivo. These data reveal a bursal-derived multifunctional factor, BP8, as a novel biomaterial which is essential for the development of the immune system and represents an important linker between the B cell development and retinol metabolism. This study elucidates the mechanisms involved in humoral immune system and has implications in treating human diseases.

The potential molecular effects of bursal septpeptide II on immune induction and antitumor activity.

The bursa of Fabricius (BF) is the acknowledged central humoral immune organ in birds. Bursal septpeptide II (BSP-II) is an immunomodulatory bioactive peptide isolated from BF. To understand the effects of BSP-II on immune induction, gene expression profiles of hybridoma cells treated with BSP-II were evaluated. Pathway analysis showed that regulated genes were involved in cytokine-cytokine receptor interactions, T cell receptor signaling pathway, and pathway in cancer. It was observed that BSP-II reduced tumor cells proliferation and stimulated p53 expression. These results indicate potential mechanisms underlying the effects of the humoral immune system on immune induction, including antitumor activities. Our study has provided a novel insight into immunotherapeutic strategies for treating human tumors.

Effect of sonication on different quality parameters of Pinus massoniana pollen.

A study was initiated with the objective of evaluating the effects of sonication treatment on important quality parameters of extract of Pinus massoniana pollen. Sonication of extract was done (frequency 20kHz and various amplitude levels) for 10, 30, 50min, respectively. As results, total polysaccharide, phenolics and flavonoids significantly increased (P<0.05). And sonicated P.massoniana pollen displays strong immuno-stimulating activity by increasing proliferations of splenic lymphocytes and subsets of CD4+ T cells (CD3+CD4+), CD8 T cells (CD3+CD8+), and increased Ig secretion. Sonicated P. massoniana pollen also showed anti-tumor function by inhibition of tumor cell proliferation, inhibition of ROS production, up-regulation of GSH/GSSG ration, up-regulating the gene expression of P53, Bax and down-regulating the gene expression of Bcl-2. Findings of the present study suggested the sonication treatment of P. massoniana pollen could improve the quality and bioactivity of P. massoniana pollen, indicating that sonication is effective in processing of pollen and could be a potential process in tumor prevention and treatment.

BP8, a novel peptide from avian immune system, modulates B cell developments.

The bursa of Fabricius (BF) is the key humoral immune organ unique to birds, and is critical for early B-lymphocyte proliferation and differentiation. However, the molecular basis and mechanisms through which the BF regulates B cell development are not fully understood. In this study, we isolated and identified a new bursal peptide (BP8, AGHTKKAP) by RP-HPLC and MALDI-TOF-MS. BP8 promoted colony-forming pre-B formation, bound B cell precursor, regulated B cell development in vitro as well as in vivo, upstream of the EBF-E2A-Pax5 regulatory complex and increased immunoglobulin secretion. These data revealed a bursal-derived multifunctional factor BP8 as a novel biomaterial which is essential for the development of the immune system. This study elucidates further the mechanisms involved in humoral immune system and has implications in treating human diseases.

BP5 regulated B cell development promoting anti-oxidant defence.

Bursa of Fabricius is the humoral immune system for B cell differentiation and antibody production. Bursopentine (BP5) is a novel immunomodulatory peptide and significantly stimulated an antigen-specific immune response in mice. BP5 was also found to protect LPS-activated murine peritoneal macrophages from oxidative stress. In this study, the effects of BP5 on B cell development were examined. The results suggested that BP5 markedly promoted B cell development by increasing CFU-pre B, and affected the redox homeostasis regulation of B cells. To study the molecular mechanism of effect of bursal-derived BP5, this research utilized 2D-E and MALDI-TOF/TOF to analyze the differentially expressed proteins of BP5-treated WEHI-231 cells. The results showed that BP5 affected the redox homeostasis regulation of WEHI-231 cells and induced alterations in the protein expression profiles related to the oxidoreduction coenzyme metabolic process, precursor metabolites and energy, proteolysis, RNA splicing and translation and cellular process, respectively. BP5 also induced glucose-6-phosphate dehydrogenase (G6PD) activity, an essential anti-oxidant cofactor. We found that the redox homeostasis regulation effect of BP5 was reduced in G6PD-deficient cells. These data suggested that BP5 affected the redox balance toward reducing conditions by promoting the expression of G6PD, which in turn regulated the glutathione redox cycle and other processes.

Fine mapping of a linear epitope on EDIII of Japanese encephalitis virus using a novel neutralizing monoclonal antibody.

The domain III (EDIII) of the envelope protein of Japanese encephalitis virus (JEV) is proposed to play an essential role in JEV replication and infection; it is involved in binding to host receptors and contains specific epitopes that elicit neutralizing antibodies. However, most previous studies have not provided detailed molecular information about the functional epitopes on JEV EDIII protein. In this study, we described a monoclonal antibody (mAb 2B4) we produced and characterized by IFA, PRNT, ELISA and Western blot analyses. The results showed that mAb 2B4 was specific to JEV EDIII protein and possessed high neutralization activity against JEV in vitro. Furthermore, we found that the motif, (394)HHWH(397), was the minimal unit of the linear epitope recognized by mAb 2B4 through screening a phage-displayed random 12-mer peptide library. Using sequence alignment analysis it was found that this motif was highly conserved among JEV strains and was present in West Nile Virus (WNV). Indeed, ELISA data showed that this epitope could be recognized by both JEV-positive swine serum and WNV-positive swine serum. Notably, this linear epitope was highly hydrophilic and was located within the terminal end of a ß-pleated sheet of EDIII. An analysis of the spatial conformation supported the possibility of inducing specific antibodies to this epitope. Taken together, we identified (394)HHWH(397) as an EDIII-specific linear epitope recognized by mAb 2B4, which would be beneficial for studying the pathogenic mechanism of JEV; and mAb 2B4 was also a potential diagnostic and therapeutic reagent.

Immunomodulatory roles and functional analysis of pre-B lymphocyte DT40 cells with the bursal-derived BSP-II treatment.

The bursa of Fabricius, the acknowledged central humoral immune organ, is vital to B cell differentiation. However, the regulatory function of the bursal-derived peptide on avian B cell proliferation has not been reported. BSP-II is a recently reported bursal-derived bioactive peptide. In this paper, 75 days-old chicks were twice subcutaneously immunized with BSP-II and inactivated avian influenza virus (AIV, H(9)N(2) strain). It was proved that BSP-II induced a strongly AIV-specific HI antibody production in the immunized chicks. Also, BSP-II could enhance avian pre-B lymphocyte DT40 cell viability. To investigate the global patterns of gene expression in DT40 cells after BSP-II treatment, gene microarray was carried out. It was identified that the differentially expressed genes were involved in various pathways, of which six pathways were associated with signaling transductions, including ErbB signaling, MAPK signaling, Toll-like receptor signaling, Notch signaling, mTOR signaling, and Wnt signaling. Finally, RT-qPCR was used to confirm the microarray expression data. These results indicated the molecular basis of pre-B lymphocyte viability with BSP-II treatment, which provided a potential mechanism of the bursa of Fabricius on pre-B lymphocyte viability, differentiation, and development. These results are valid for the mechanism of the bursa of Fabricius on B lymphocytes development.

Inhibition of Japanese encephalitis virus entry into the cells by the envelope glycoprotein domain III (EDIII) and the loop3 peptide derived from EDIII.

Japanese encephalitis virus (JEV) infection is a major cause of acute viral encephalitis both in humans and animals. The domain III of virus envelope protein (EDIII) plays important roles in interacting with host cell receptors to facilitate virus entry. In this study, recombinant JEV EDIII was expressed and purified. The protein showed the ability to inhibit JEV infection in BHK-21 cells with 50% inhibition at a concentration of 25µg/ml. Based on NMR structure of JEV EDIII, we chose several loop peptides that were reported to be related to receptor binding to test their possible inhibitory activities on virus infection. Our in vitro experiments demonstrated that one of the loop peptides (loop3) can prevent JEV infection with 50% inhibition at concentration of 10µM by interfering in virus attachment to the cells. Our in vivo experiments on mice showed the loop3 was the most protective peptide when administered before virus challenge. Therefore, the loop3 peptide may be served as basis for the development of novel antiviral agents against Japanese encephalitis virus or other flaviviruses infection.

The suppressive effects of Bursopentine (BP5) on oxidative stress and NF-ĸB activation in lipopolysaccharide-activated murine peritoneal macrophages.

BACKGROUND/AIM: Bursopentine (BP5) is a novel thiol-containing pentapeptide isolated from chicken bursa of Fabricius, and is reported to exert immunomodulatory effects on B and T lymphocytes. It has been found that some thiol compounds, such as glutathione (GSH) and N-acetylcysteine (NAC) protect living cells from oxidative stress. This led us to investigate whether BP5 had any ability to protect macrophages from oxidative stress as well as any mechanism that might underlie this process. METHODS: Murine peritoneal macrophages activated by lipopolysaccharide (LPS) (2 µg/ml) were treated with single bouts (0, 25, 50, and 100 µM) of BP5. RESULTS: BP5 potently suppressed the markers for oxidative stress, including nitric oxide (NO), reactive oxygen species (ROS), lipid peroxidation, and protein oxidation. It also decreased the expression and activity of inducible nitric oxide synthase (iNOS) and promoted a protective antioxidant state by elevating GSH content and by activating the expression and activity of certain key antioxidant and redox enzymes, including glutathione peroxidase (GPx), glutathione reductase (GR), superoxide dismutase (SOD) and catalase (CAT). This suppressive effect on oxidative stress was accompanied by down-regulated expression and activity of nuclear factor kappa B (NF-κB). CONCLUSION: These findings demonstrate that BP5 can protect LPS-activated murine peritoneal macrophages from oxidative stress. BP5 may have applications as an anti-oxidative stress reagent.

Identification and characterization of novel immunomodulatory bursal-derived pentapeptide-II (BPP-II).

The bursa of Fabricius, the acknowledged central humoral immune organ, plays a vital role in B lymphocyte differentiation. However, there are few reports of the molecular basis of the mechanism on immune induction and potential antitumor activity of bursal-derived peptides. In this paper, a novel bursal-derived pentapeptide-II (BPP-II, MTLTG) was isolated and exerted immunomodulatory functions on antibody responses in vitro. Gene microarray analyses demonstrated that BPP-II regulated expression of 2478 genes in a mouse-derived hybridoma cell line. Immune-related gene ontology functional procedures were employed for further functional analysis. Furthermore, the majority of BPP-II-regulated pathways were associated with immune responses and tumor processes. Moreover, BPP-II exhibited immunomodulatory effects on antigen-specific immune responses in vivo, including enhancement of avian influenza virus (H9N2 subtype)-specific antibody and cytokine production and modification of T cell immunophenotypes and lymphocyte proliferation. Finally, BPP-II triggered p53 expression and stabilization and selectively inhibited tumor cell proliferation. These data identified the multifunctional factor, BPP-II, as a novel biomaterial representing an important linking between the humoral central immune system and immune induction, including antitumor. Information generated in this study elucidates further the mechanisms involved in humoral immune system and represents the potential basis of effective immunotherapeutic strategies for treating human tumors and immune improvement.

Multiple linear B-cell epitopes of classical swine fever virus glycoprotein E2 expressed in E.coli as multiple epitope vaccine induces a protective immune response.

Classical swine fever is a highly contagious disease of swine caused by classical swine fever virus, an OIE list A pathogen. Epitope-based vaccines is one of the current focuses in the development of new vaccines against classical swine fever virus (CSFV). Two B-cell linear epitopes rE2-ba from the E2 glycoprotein of CSFV, rE2-a (CFRREKPFPHRMDCVTTTVENED, aa844-865) and rE2-b (CKEDYRYAISSTNEIGLLGAGGLT, aa693-716), were constructed and heterologously expressed in Escherichia coli as multiple epitope vaccine. Fifteen 6-week-old specified-pathogen-free (SPF) piglets were intramuscularly immunized with epitopes twice at 2-week intervals. All epitope-vaccinated pigs could mount an anamnestic response after booster vaccination with neutralizing antibody titers ranging from 1:16 to 1:256. At this time, the pigs were subjected to challenge infection with a dose of 1 × 106 TCID50 virulent CSFV strain. After challenge infection, all of the rE2-ba-immunized pigs were alive and without symptoms or signs of CSF. In contrast, the control pigs continuously exhibited signs of CSF and had to be euthanized because of severe clinical symptoms at 5 days post challenge infection. The data from in vivo experiments shown that the multiple epitope rE2-ba shown a greater protection (similar to that of HCLV vaccine) than that of mono-epitope peptide(rE2-a or rE2-b). Therefore, The results demonstrated that this multiple epitope peptide expressed in a prokaryotic system can be used as a potential DIVA (differentiating infected from vaccinated animals) vaccine. The E.coli-expressed E2 multiple B-cell linear epitopes retains correct immunogenicity and is able to induce a protective immune response against CSFV infection.

Design and evaluation of a multi-epitope peptide against Japanese encephalitis virus infection in BALB/c mice.

Epitope-based vaccination is a promising means to achieve protective immunity and to avoid immunopathology in Japanese encephalitis virus (JEV) infection. Several B-cell and T-cell epitopes have been mapped to the E protein of JEV, and they are responsible for the elicitation of the neutralizing antibodies and CTLs that impart protective immunity to the host. In the present study, we optimized a proposed multi-epitope peptide (MEP) using an epitope-based vaccine strategy, which combined six B-cell epitopes (amino acid residues 75-92, 149-163, 258-285, 356-362, 373-399 and 397-403) and two T-cell epitopes (amino acid residues 60-68 and 436-445) from the E protein of JEV. This recombinant protein was expressed in Escherichia coli, named rMEP, and its protective efficacy against JEV infection was assessed in BALB/c mice. The results showed that rMEP was highly immunogenic and could elicit high titer neutralizing antibodies and cell-mediated immune responses. It provided complete protection against lethal challenge with JEV in mice. Our findings indicate that the multi-epitope vaccine rMEP may be an attractive candidate vaccine for the prevention of JEV infection.

Function of PRRSV GP5 envelope protein by using pseudotyped virus.

The porcine reproductive and respiratory syndrome virus (PRRSV) is an enveloped RNA virus. Virions of PRRSV contain six membrane proteins: the major proteins GP5 and M and the minor proteins GP2, GP3, GP4, and E. The GP5 is the major envelope proteins, which was involved in the formation and infectivity of PRRSV by coaction with other membrane proteins. Here, to determine the function of alone GP5 envelope protein in viral entry, we investigated the formation and infectivity of GP5-pseudotyped virus particles. By co-transfection of GP5 expression plasmids with murine leukemia virus (MuLV) based retroviral vectors (pHIT60, encoding MuLV Gag-Pol; pHIT111, encoding an MuLV genome with a beta-galactosidase reporter gene) into 293 T cells and analysis of the culture medium using ultracentrifugation, Western blot, and infection assay. We observed that the GP5 envelope protein was incorporated into the MuLV retroviral vectors to generate an pseudotyped murine leukemia virus, which was infectious to PAM and Mack-145 target cells and displayed the same host range with wild-type PRRSV. The infection of the pseudotyped virus on PAM target cells is effectively neutralized by polyclonal antibodies specific for PRRSV or GP5. The results suggested that the GP5 protein may play a key role in the viral entry by interacting with the host cell receptor. The GP5-pseudotyped virus will be useful in the identification of the cellular receptor binding with GP5 protein.

Immune responses of recombinant adenoviruses expressing immunodominant epitopes against Japanese encephalitis virus.

Japanese encephalitis virus (JEV), which belongs to the family Flaviviridae, causes infection of the central nervous system in humans and equines and stillbirths in swine. In the present report, we constructed and characterized the immune responses conferred by recombinant adenoviruses expressing JEV E epitopes (six amino acid residues 60-68, 327-333, 337-345, 373-399, 397-403 and 436-445 in E, designated TEP). Seven groups (n = 10) of female BALB/c mice received intramuscular (IM) or oral immunization with the recombinant adenoviruses twice at 2-week intervals. Intramuscular immunization of mice with rAd-TEP generated greater titers of anti-JEV antibodies and JEV neutralizing activity than in animals with oral injection. It statistically significant differences were found in anti-JEV antibody titers and JEV neutralizing activity induced by IM immunization with rAd-TEP at a dose of 1 x 10(8.0)TCID50 when compared with the doses tested (3 x 10(7.0) and 1 x 10(7.0)TCID50) IM inoculation of rAd-TEP. Splenocytes from mice immunized intramuscularly with rAd-TEP secreted the largest amounts of interferon-gamma and interleukin-2 and moderate amounts of interleukin-4 in the presence of JEV. It demonstrates that IM immunization with rAd-TEP induced the highest level of cell-mediated immune responses and the higher level of JEV-specific humoral immune responses than oral immunization. Then we further evaluated the protective efficacy of the recombinants in swine. All swine were protected from viral challenge with IM rAd-TEP at 1 x 10(10.0)TCID50, even though the neutralizing antibody titers were lower than those in the group inoculated with inactivated vaccine. Our findings indicate that rAd-TEP might be an attractive candidate vaccines for preventing JEV infection.

[Construction and the immunogenicity of the recombinant Modified Vaccinia Virus Ankala co-expressing ORF4, ORF5 and ORF6 genes of porcine reproductive and Respiratory Syndrome Virus NJ-a strain].

To develop investigate the recombinant MVA(rMVA) vaccines against PRRSV infection, the ORF4, ORF5 and ORF6 of PRRSV NJ-a strain were subcloned into the MVA transfer vector p II LR and the resultant recombinant vector was called p II LR-ORF4/ORF5/ORF6. The rMVA was generated by transfecting MVA-infected BHK-21 cells with the recombinant vector and screened by plaque purification after X-gal staining. After six rounds of purification, insertion of PRRSV GP4, GP5 and M genes into the MVA genome was confirmed by PCR analysis and expression of the three proteins was identified by Western-blot and IFA. Each of the tested mice was inoculated with 5 x 10(5) TCID(50)/mouse of the rMVA-GP4/GP5/M and boosted 3 weeks later. Neutralization assay showed that PRRSV-specific neutralizing antibodies were detectable at 3 weeks and reached the highest titer (2(5)) by 8 weeks after the primary vaccination, which maintained stable until the end of the experiment. The significant lymphocyte proliferation responses were also observed in mice immunized with rMVA-GP4/GP5/M. These results indicate the rMVA co-expressing PRRSV ORF4, ORF5 andORF6 genes may be an attractive candidate vaccine for preventing PRRSV infection.