Development of novel antibodies against non-structural proteins nsP1, nsP3 and nsP4 of chikungunya virus: potential use in basic research.

Chikungunya virus (CHIKV) has reemerged recently as an important pathogen, causing several large epidemics worldwide. This necessitates the development of better reagents to understand its biology and to establish effective and safe control measures. The present study describes the development and characterization of polyclonal antibodies (pAbs) against synthetic peptides of CHIKV non-structural proteins (nsPs; nsP1, nsP3 and nsP4). The reactivity of these pAbs was demonstrated by ELISA and Western blot. Additionally, in vitro infection studies in a mammalian system confirmed that these pAbs are highly sensitive and specific for CHIKV nsPs, as these proteins were detected very early during viral replication. Homology analysis of the selected epitope sequences revealed that they are conserved among all of the CHIKV strains of different genotypes, while comparison with other alphavirus sequences showed that none of them are 100% identical to the epitope sequences (except Onyong-nyong and Igbo Ora viruses, which show 100% identity to the nsP4 epitope). Interestingly, two different forms of CHIKV nsP1 and three different forms of nsP3 were detected in Western blot analysis during infection; however, further experimental investigations are required to confirm their identity. Also, the use of these antibodies demonstrated faster and enhanced expression profiles of all CHIKV nsPs in 2006 Indian outbreak strains when compared to the CHIKV prototype strain, suggesting the epidemic potential of the 2006 isolate. Accordingly, it can be suggested that the pAbs reported in this study can be used as sensitive and specific tools for experimental investigations of CHIKV replication and infection.

Development and characterization of monoclonal antibody against non-structural protein-2 of Chikungunya virus and its application.

The recent epidemics of Chikungunya viruses (CHIKV) with unprecedented magnitude and unusual clinical severity have raised a great public health concern worldwide, especially due to unavailability of vaccine or specific therapy. This emphasizes the need to understand the biological processes of this virus in details. Although CHIKV associated research has been initiated, the availability of CHIKV specific reagents for in-depth investigation of viral infection and replication are scanty. For Alphavirus replication, non-structural protein 2 (nsP2) is known to play a key regulatory role among all other non-structural proteins. The current study describes the development and characterization of nsP2 specific monoclonal antibody (mAb) against a synthetic peptide of CHIKV. Reactivity and efficacy of this mAb have been demonstrated by ELISA, Western blot, Flow cytometry and Immunofluorescence assay. Time kinetic study confirms that this mAb is highly sensitive to CHIKV-nsP2 as this protein has been detected very early during viral replication in infected cells. Homology analysis of the selected epitope sequence reveals that it is conserved among all the CHIKV strains of different genotypes, while analysis with other Alphavirus sequences shows that none of them are 100% identical to the epitope sequence. Moreover, using the mAb, three isoforms of CHIKV-nsP2 have been detected in 2D blot analysis during infection in mammalian cells. Accordingly, it can be suggested that the mAb reported in this study can be a sensitive and specific tool for experimental investigations of CHIKV replication and infection.