Tetravalent dengue specific domain III based chimeric recombinant protein as dengue diagnostic intermediates for the detection of both anti-dengue immunoglobulin M(IGM) and imunoglobulin G(IGG) antibodies in human serum samples.

Abstract

BACKGROUND: Dengue infection is an important mosquito borne viral infection caused by four serotypes of dengue virus with explosive outbreaks occurring in many tropical areas. Laboratory diagnosis of the disease mainly depends on Enzyme-Linked Immunosorbent Assay (ELISA) based on whole viral antigens which cause biohazard risk, high production cost and cross reactivity with other flaviviruses. OBJECTIVES: To produce a recombinant protein antigen to overcome problems associated with whole dengue viral antigen/lysate or recombinant whole envelope protein. STUDY DESIGN: We have designed and expressed a single recombinant tetravalent protein antigen which contains Domain III of envelope protein from all four serotypes of dengue virus, linked with each other through penta glycine linkers. This synthetic gene was expressed in Escherichia coli and protein was purified using a single affinity chromatographic step. We developed Immunoglobulin M (IgM) and Immunoglobulin G (IgG) ELISAs using this novel protein as the capture antigen. The antigen was validated as a diagnostic reagent on serum samples. RESULTS: 30 mg of recombinant protein per litre of culture could be purified. Both ELISAs developed using this novel recombinant protein showed an excellent agreement with a commercially available IgM ELISA (MRL diagnostic) and haernagglutination inhibition assay respectively. Conclusions: Findings of this study suggests that this single dengue specific tetravalent recombinant protein antigen can be used as a diagnostic intermediate for detection of dengue infection.