Evaluation of cellular and humoral immune response in chickens immunized with flagellin-adjuvanted inactivated newcastle disease virus.

The aim of the present study was to evaluate the potential effect of flagellin as adjuvant in Newcastle disease virus (NDV) vaccine on the cellular and humoral immunity in chickens. Fifty-six specific pathogen-free chickens were assigned to seven groups of eight chickens and immunized twice with a two-week interval, intramuscularly. Group 1, received phosphate buffered saline as control (C), groups 2, 3, 4, 5, 6 and 7 were immunized with inactivated NDV [Ag], Ag + full FliC protein [AgF], Ag + truncated Flic protein [AgT], Ag + native Flic protein [AgN], commercial NDV vaccine [Vac] and Vac + N [VacN], respectively. After 45 days, spleen and bursa of Fabricius samples were collected and analyzed by flow cytometry and responses in control/vaccinated chickens were studied by immunophenotyping. Humoral response was also, evaluated by ELISA during the experiment. Results showed that immunized chickens with Ag + flagellin proteins had significantly higher frequency of circulating CD3+, CD4+ and CD8+ T cells in bursa of Fabricius in AgF, AgT and AgN, respectively, compared with other groups. Similar results were observed for spleen; however, the highest frequency of circulating CD3+, CD4+ and CD8+ T cells belonged to AgT and AgF, respectively. ELISA results showed that all flagellin-adjuvanted groups had higher antibody titers than other groups with the highest antibody response in VacN. It can be concluded that flagellin may induce both humoral and cellular immune responses against ND and is suggested for use as an efficient adjuvant.

Cloning and sequencing of the ompL37 gene present in Leptospira interrogans, a surface protein in pathogenic leptospires.

BACKGROUND AND OBJECTIVES: Leptospirosis, an infection caused by pathogenic leptospires, is associated with insufficient sanitation and poverty. Leptospira is transmitted through contact with contaminated urine of reservoir animals. The primary objective of this study was to clone and sequence the ompL37 gene present in local and vaccine serovars. MATERIALS AND METHODS: A total of 16 Leptospira interrogans serovars were cultured in EMJH liquid medium. After growing, genomic DNA was extracted using phenol-chloroform method. Primer pair was synthesized to amplify the 996 bp ompL37 sequence. The amplified ompL37 gene was cloned into pTZ57R/T vector. The sequences obtained from this study were compared with an only recorded sequence in the Genbank by the Meg Align software. RESULTS: PCR products showed an amplified 996bp ompL37 gene product belonging to pathogenic serovars, while no ompL37 products were amplified in non-pathogenic serovars. Sequences comparison tests from 16 native serotypes examined in this study displayed a similarity range of 84% to 99.5% among serovars used. The results showed that two serotypes of L. interrogans including Serjoehardjo (RTCC2810 and RTCC2821) had the highest identity up to 95.5%. Two serovars of L. interrogans including Pomona (RTCC2822) and Icterohaemorrhagiae (RTCC2823) had the lowest identity about 84%. CONCLUSION: As the results showed, ompL37, present on the surface of such bacteria, showed a conserved sequence. ompL37, as a key role in cell adhesion and pathogenicity, can be used for designing diagnostic tests and vaccines. Furthermore, sequencing of various sites in ompL37 gene, including binding sites and immunogenic epitopes, can be valuable alternatives for future studies.

Effect of C-Terminus Modification in Salmonella typhimurium FliC on Protein Purification Efficacy and Bioactivity.

Recombinant flagellin (FliC) has shown low efficacy in purification because of inclusion bodies formation and aggregation. We hypothesized preserving TLR5 binding site of FliC and removing some amino acids could be responsible for aggregation and solubility improvement. Hence, a bioinformatics study was performed to find hotspots in aggregate formation. Protein modeling was carried out by SWISS-MODEL and I-TASSER servers and models were compared by MATRAS server and Chimera 1.11.2. Gene modification was carried out based on bioinformatics studies. Genes, (truncated modified fliC (tmFliC) and full-length fliC (flFliC)), were cloned and expressed in pET-21a vector. Protein purification was carried out using HIS-Tag method. Proliferation assay and also induction of IL-8 in HEK293 cells were performed to confirm bioactivity function of tmFliC. Bioinformatics results showed that partial deletion of C-terminus may increase solubility without unfavorable effect on TLR5 recognition. Also, model comparison showed that this protein may preserve 3D structure. In addition, GlobPlot server demonstrated that tmFliC formed its globular domains which were important in TLR5 recognition. As we expected, high purification efficacy for tmFliC compared with flFliC was also obtained in experimental studies and a proper function for tmFliC was observed. The tmFliC enhanced cell proliferation in HEK293 cells compare with control after 24 h. Also, IL-8 level was increased with stimulation by tmFliC after 24 h. In conclusion, reducing hydrophobicity in C-terminus and deleting necessary amino acids for filament formation may increase protein solubility.

Immunostimulatory effects of truncated and full-length flagellin recombinant proteins.

Problems regarding purification efficacy in recombinant technologies is due to the protein structure. Experimental manipulation of genes and the subsequent proteins may overcome this issue. In order to improve production efficacy and maintain immunestimulatory effect of flagellin, the Toll-like Receptor 5 (TLR5) ligand and a potent adjuvant, we performed a bioinformatic study to find the best model for FliC manipulation. Truncated modified FliC (tmFliC) and full length FliC (flFliC) genes were cloned and expressed in pET-21a vector and protein purification was carried out using an improved His-Tag method. Polyclonal antibodies were generated against flFliC and tmFliC in New Zealand white rabbits. IgG response to the recombinant proteins was determined by ELISA. Cross-reactivity assay was performed by ELISA for all proteins and bacteria. Immunogenicity of tmFliC and flFliC was evaluated in chicken cells, and expression level of tumor necrotic factor-α (TNF-α) and interleukin-6 (IL-6) were relatively analyzed by Real-Time-PCR. Results showed high purification efficacy for tmFliC. Antibody titer of tmFliC was significantly higher than that of flFliC. In addition, the cross-reactivity assay for both proteins and Salmonella was positive which indicates similar epitopic regions. Stimulation of both FliCs significantly increased TNF-α and IL-6 expression in peripheral blood mononuclear cells (PBMCs) and splenocytes, with higher effect observed with flFliC. IL-8 protein level increased after 6 and 24 h stimulation with different concentrations of tmFliC and flFliC. These results suggest that the aimed gene modification in fliC gene produces a bioactive immunostimulant type of flagellin which upregulates TLR5 downstream genes as well as in flFliC.

Antibacterial Activity of Isolated Immunodominant Proteins of Naja Naja (Oxiana) Venom.

The aim of this study is to investigate antibacterial effects of immunodominant proteins isolated from the venom of Naja Naja Oxiana snake against Staphylococcus aureus, Escherichia coli, Bacillus subtilis and Pseudomonas aeruginosa. The innate immune system is an important line of defense against bacterial diseases. Antibacterial peptides and proteins produced by snake venoms have recently attracted significant attention due to their relevance to bacterial diseases and the potential of being converted into new therapeutic agents. Identification of immunodominant proteins of the venom of Naja Naja Oxiana snake was performed by SDS-PAGE and western blot analysis. Identified proteins were isolated directly from preparative gel electrophoresis by Electro-elution. In the next step, antibacterial effects of immunodominant proteins were tested against several strains of clinical isolates, including S.aureus, B.subtilis (Gram-positive bacteria) P.aeruginosa and E.coli (Gram-negative bacteria) using broth microdilution and disc-diffusion assays. In order to compare the results of the disc-diffusion assay, antibacterial effects of several antibiotics (Gentamicin, Ampicillin, Penicillin, Amoxicillin and Ciprofloxacin) were also examined using the same conditions. Results showed that immunodominant proteins of (14, and 65kDa) with high immunogenicity were very effective in inhibiting the growth of two Gram-positive bacteria (S.aureus, B.sub) that were tested. However, they were only moderately effective in inhibiting the growth of the two tested Gram-negative bacteria (P.aeruginosa and E.coli). However, immunodominant proteins of 22 kDa and 32kDa with high immunogenicity, showed slight effectiveness in inhibiting the growth of two; the Gram-positive and Gram-negative bacteria that were tested. To the best of our knowledge, these immunodominant proteins are novel antigens for potent antimicrobial effects against two gram-positive bacteria (S.aureus, B.subtilis ) and less antimicrobial effect against two gram-negative bacteria (E.coli, P.aeruginosa) that were prepared .

Genetic Characterization of Bacillus anthracis 17 JB strain.

BACKGROUND AND OBJECTIVES: Bacillus anthracis is one of the most homogenous bacteria ever described. Some level of diversity. Bacillus anthracis 17JB is a laboratory strain It is broadly used as a challenge strain in guinea pigs for potency test of anthrax vaccine. MATERIAL AND METHODS: This work describes genetic characterization of B. anthracis 17 JB strain using the SNPs and MLVA genotyping. RESULTS AND CONCLUSION: In SNPs typing, the originally French 17JB strain represented the A.Br. 008/009 subgroup. In Levy's genotyping method, 843, 451 and 864 bp long fragments were identified at AA03, AJ03 and AA07 loci, respectively. In the vaccine manufacturer perspective these findings are much valuable on their own account, but similar research is required to extend molecular knowledge of B. anthracis epidemiology in Persia.

Identification of Isolated Salmonella enterica Serotype gallinarum Biotype Pullorum and Gallinarum by PCR-RFLP.

BACKGROUND: Salmonella spp. is the major bacterial pathogen in poultry and is responsible for significant economic losses of the poultry industry in many parts of the world. Among Salmonella spp., Salmonella gallinarum and Salmonella. pullorum are the most common causative agents of chicken salmonellosis resulting in high mortality and morbidity. OBJECTIVES: The aim of this study was to identify S. gallinarum and S. pullorum by using the polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) method. MATERIALS AND METHODS: In this study, 13 samples of Salmonella, isolated from local poultry, were obtained from Razi Type Culture Collection (RTCC). For the PCR-RFLP method based on the fliC gene, extracted DNA was used as a template for amplifying of the fliC gene (197bp) using specific primers. PCR products were subjected to digestion using Hinp1I restriction endonuclease. RESULTS: For the PCR, 197 bp fliC fragment was amplified from all 13 isolates. Ten out of 13 were S. gallinarum and the other three were S. pullorum. As part of the PCR-RFLP, two fragments were obtained (82 bp and 115 bp) for all S. gallinarum, whereas no digestion was observed in S. pullorum, and 197 bp fragment was seen. CONCLUSIONS: PCR-RFLP with fliC gene and Hinp1I endonuclease were successfully applied to differentiate the two biotypes. The results suggested that this technique could be effective in detecting S. gallinarum and S. pullorum.

Cloning and Sequence Analysis of LipL32, a Surface-Exposed Lipoprotein of Pathogenic Leptospira Spp.

BACKGROUND: Leptospirosis is a worldwide zoonosis caused by pathogenic Leptospira species. A major challenge of this disease is the application of basic research to improve diagnostic methods and related vaccine development. Outer membrane proteins of Leptospira are potential candidates that may be useful as diagnostic or immunogenic factors in treatment and analysis of the disease. OBJECTIVES: To develop an effective subunit vaccine against prevalent pathogenic Leptospira species, we sequenced and analyzed the LipL32 gene from three different Leptospira interrogans (L.interrogans) vaccinal serovars in Iran. MATERIALS AND METHODS: Following DNA extraction from these three serovars, the related LipL32 genes were amplified and cloned in the pTZ57R/T vector. Recombinant clones were confirmed by colony- PCR and DNA sequencing. The related sequences were subjected to homology analysis by comparing them to sequences in the Genbank database. RESULTS: The LipL32 sequences were >94% homologous among the vaccinal and other pathogenic Leptospira serovars in GenBank. This result indicates the conservation of this gene within the pathogenic Leptospires. CONCLUSIONS: The cloned gene in this study may provide a potentially suitable platform for development of a variety of applications such as serological diagnostic tests or recombinant vaccines against leptospirosis.