C. Madhan Mohan

Recombinant Antigen-based Latex Agglutination Test for Rapid Serodiagnosis of Leptospirosis

A rapid recombinant antigen-based latex agglutination test (LAT) has been developed to detect specific anti-leptospiral antibodies from human and dog sera. The recombinant LipL32 antigen developed and used for detecting the antibodies is specific in detection of the pathogenic serovars of Leptospira as the expression of the LipL32 antigen is restricted only to the pathogenic leptospires. The sensitized latex beads are stable and could be stored at 4°C for more than three months without showing loss of activity for both weakly and strongly positive samples. The test is found to be sensitive, specific and accurate as compared to the standard microscopic agglutination test (MAT). Moreover, the recombinant antigen-coated latex beads could detect the specific anti-leptospiral antibodies in the acute phase of the illness. The test is simple and inexpensive, and is rapid in the management of large numbers of patients.

Formation of subviral particles of the capsid protein VP2 of infectious bursal disease virus and its application in serological diagnosis.

Infectious bursal disease virus (IBDV) is an immunosuppressive disease of young chicken characterized by severe depletion of B-lymphocytes in the bursa of Fabricius. To provide antigen for diagnostic tests, its major structural protein VP2 was expressed in the yeast Saccharomyces cerevisiae. Electron microscopy of purified VP2 protein demonstrated that when expressed from yeast cells VP2 protein forms subviral particles (SVPs) of approximately 20nm in diameter. A recombinant VP2 antigen-based single serum dilution enzyme linked immunosorbent assay (ELISA) using the SVPs detected IBDV specific antibodies in chickens. A linear relationship was found between the predicted antibody titres at a single working dilution of 1:1000 and the corresponding observed serum titres when determined by the standard serial dilution method. Regression analysis was used to construct a standard curve from which an equation was derived which confirmed their correlation. The equation was then used to convert the corrected absorbance readings of the single working dilution directly into the predicted ELISA antibody titres. The assay proved to be sensitive, specific and accurate as compared to the serum neutralization test and agar gel immunodiffusion test. The recombinant VP2 antigen is a suitable alternative to whole viral antigen.

Recombinant flagellin and its cross-talk with lipopolysaccharide - Effect on pooled chicken peripheral blood mononuclear cells

Toll-like receptors (TLRs) are one of the types of pattern recognition receptors (PRRs) that recognize conserved pathogen molecules. TLRs link innate and adaptive arms of immune system and are implicated in the development of defense against invading pathogens. Lipopolysaccharide (LPS) and flagellin are recognized by TLR4 and TLR5, respectively. In this study, the effect of flagellin and lipopolysaccharide alone and in combination on chicken peripheral blood mononuclear cells (PBMCs) was investigated. The FliC gene of Salmonella typhimurium was expressed in a prokaryotic expression system and the recombinant flagellin was used to stimulate the chicken PBMCs. A combination of recombinant flagellin and LPS synergistically upregulated nitric oxide production, IL-12 and IL-6 expression but antagonistically down regulated IL-4 expression in comparison to recombinant flagellin alone. The results indicate that these agonists synergistically interact and enhance macrophage function and promote Th1 immune response in chicken PBMCs.

Molecular Changes of the Fusion Protein Gene of Chicken Embryo Fibroblast–Adapted Velogenic Newcastle Disease Virus: Effect on Its Pathogenicity

Abstract Molecular changes of cell culture–adapted Newcastle disease virus (NDV) were studied by adapting a velogenic NDV isolated from commercial layer chicken-to-chicken embryo fibroblast (CEF) cells. The isolate was passaged 50 times in CEF cells. At every 10th passage the virus was characterized conventionally by mean death time analysis, intracerebral pathogenicity index, and virus titration. As the passage level increased, a gradual reduction in the virulence of the virus was observed. Molecular characterization of the virus included cloning and sequencing of a portion of the fusion gene (1349 bp) encompassing the fusion protein cleavage site (FPCS), which was previously amplified by reverse transcription–polymerase chain reaction. Sequence analysis revealed a total of 134 nucleotide substitutions, which resulted in the change of 41 amino acids between the parent and the 50th passage virus. Pathogenicity studies conducted in 20-wk-old seronegative chickens revealed gross and histopathologic changes in the chickens injected with the parent virus and absence of the lesions in chickens injected with the adapted virus. The 50th passage cell culture virus was back-passaged five times in susceptible chickens and was subjected to virulence attribute analysis and sequence analysis of the FPCS region, with minor differences between them.

Recombinant antigen-based dipstick elisa for the diagnosis of leptospirosis in dogs

A recombinant LipL32 antigen-based dipstick elisa was developed as a screening test for the detection of leptospiral antibodies in serum samples from dogs. The antibodies were detected by a change in the colour of the substrate solution when the recombinant antigen-coated dipsticks were dipped into it. The relative sensitivity, specificity and accuracy of the test, compared with the standard microscopic agglutination test, were 95·9 per cent, 93·8 per cent and 94·8 per cent, respectively.

Evaluation of four enzyme linked immunosorbent assays for the detection of antibodies to infectious bursal disease in chickens

The routine technique for detecting antibodies specific to infectious bursal disease virus is a serological evaluation by enzyme linked immunosorbent assay (ELISA) with preparations of whole virions as antigens. To avoid the use of complete virus in the standard technique, in-house VP2 and VP3 based ELISAs were developed. Accordingly, four types of indirect ELISAs viz., a commercial IDEXX-ELISA kit, VP2 and or VP3 antigen based ELISAs and a whole virus ELISA were compared with the virus neutralization test. It was concluded that the sensitivity and specificity at receiver-operating characteristics (ROC) optimized cut-off of four ELISAs viz., IDEXX-ELISA, VP2-ELISA and VP3-ELISA indicated similar performance whereas whole virus antigen based ELISA showed poor performance in comparison to other ELISAs. Similarly the positive and negative likelihood ratio of four ELISAs at an optimized cut-off indicated IDEXX-ELISA to be the best among all the four ELISAs while the performance of rVP3-ELISA and rVP2-ELISA is good as compared to the whole virus ELISA. Finally, the area under the ROC curve (AUC) of four ELISAs which represented a summary statistics of the overall diagnostic performance of the test also indicated that the IDEXX-ELISA, VP3-ELISA and VP2-ELISA had similar and relatively better performance when compared to whole virus antigen-ELISA.

Adaptation of a velogenic Newcastle disease virus to vero cells: assessing the molecular changes before and after adaptation.

A velogenic Newcastle disease virus isolate was passaged 50 times in Vero cell culture and the virus was assessed for the molecular changes associated with the passaging. At every 10th passage, the virus was characterized conventionally by mean death time (MDT) analysis, intracerebral pathogenicity index (ICPI) and virus titration. At increasing passage levels, a gradual reduction in the virulence of the virus was observed. Molecular characterization of the virus included cloning and sequencing of a portion of the fusion gene (1349 bp) encompassing the fusion protein cleavage site (FPCS), which was previously amplified by reverse transcription–polymerase chain reaction. Sequence analysis revealed a total of 135 nucleotide substitutions which resulted in the change of 42 amino acids between the velogenic virus and the 50th passage virus. The predicted amino acid motif present at the cleavage site of the virulent virus was 109SRRRRQRRFVG119 and the corresponding region of the adapted adapted virus was 109SGGRRQKRFIG119. Pathogenicity studies conducted in 20-week-old seronegative birds revealed gross lesions such as petechial haemorrhages in the trachea, proventricular junction and intestines, and histopathological changes such as depletion and necrosis of the lymphocytes in thymus, spleen, bursa and caecal tonsils in the birds injected with the velogenic virus and absence of the lesions in birds injected with the adapted virus.The 50th-passage cell culture virus was back-passaged five times in susceptible chickens and subjected to virulence attribute analysis and sequence analysis of the FPCS region, with minor difference found between them.

Development and evaluation of a Salmonella typhimurium flagellin based chimeric DNA vaccine against infectious bursal disease of poultry.

Infectious bursal disease (IBD) is an acute immunosuppressive disease of young chicks, caused by a double-stranded RNA virus. VP2 being the major capsid protein of the virus is an ideal vaccine candidate possessing the neutralizing epitopes. The present study involves the use of flagellin (fliC) as a genetic adjuvant to improve the immune response of VP2 based DNA vaccine against IBD. Our findings revealed that birds immunized with plasmid pCIVP2fliC showed robust immune response than pCIVP2 immunized groups. Further, challenge study proved that genetic fusion of fliC and VP2 can provide a comparatively higher level of protection against vvIBDV challenge in chickens than VP2 alone. These results thus indicate that Salmonella flagellin could enhance the immune responses and protection efficacy of a DNA vaccine candidate against IBDV infection in chickens, highlighting the potential of flagellin as a genetic adjuvant in the prevention of vvIBDV infection.

Protective effects of recombinant glycoprotein D based prime boost approach against duck enteritis virus in mice model

Duck virus enteritis, also known as duck plague, is an acute herpes viral infection of ducks caused by duck enteritis virus (DEV). The method of repeated immunization with a live attenuated vaccine has been used for the prevention and control of duck enteritis virus (DEV). However, the incidence of the disease in vaccinated flocks and latency reactivation are the major constraints in the present vaccination programme. The immunogenicity and protective efficacy afforded by intramuscular inoculation of plasmid DNA encoding DEV glycoprotein D (pCDNA-gD) followed by DEV gD expressed in Saccharomyces cerevisia (rgD) was assessed in a murine model. Compared with mice inoculated with DNA (pCDNA-gD) or protein (rgD) only, mice inoculated with the combination of gD DNA and protein had enhanced ELISA antibody titers to DEV and had accelerated clearance of virus following challenge infection. Furthermore, the highest levels of lymphocyte proliferation response, IL-4, IL-12 and IFN-γ production were induced following priming with the DNA vaccine and boosting with the rgD protein. For instance, the specially designed recombinant DEV vector vaccine would be the best choice to use in ducks. It offers an excellent solution to the low vaccination coverage rate in ducks. We expect that the application of this novel vaccine in the near future will greatly decrease the virus load in the environment and reduce outbreaks of DEV in ducks.

Recombinant nucleocapsid protein based single serum dilution ELISA for the detection of antibodies to infectious bronchitis virus in poultry

Avian infectious bronchitis is ubiquitous and highly contagious disease of poultry, with profound effect on commercial poultry production. For effective control of infectious bronchitis virus (IBV), quick and specific diagnosis is of utmost importance. In this study, the virus was isolated from clinical samples from India and the full length nucleocapsid (N) gene was amplified, cloned and expressed in a prokaryotic system. The purified recombinant N protein based single serum dilution enzyme linked immunosorbent assay (ELISA) was developed for IBV to measure specific antibody in the sera of chickens. A total of 310 chicken sera samples were tested using the commercial IDEXX kit along with the assay developed. A linear correlation was obtained between predicted antibody titres at a single working dilution of 1:100 and the corresponding serum titres observed as determined by the standard serial dilution method. Regression analysis was used to construct a standard curve from which an equation was derived which confirmed their correlation. The developed equation was then used to extrapolate predicated ELISA antibody titer from corrected absorbance readings of the single working dilution. The assay proved to be specific (95.8%) and sensitive (96.8%) when compared to the commercial IDEXX ELISA test.