Abstract

Peste des Petits Ruminants (PPR) is a highly contagious transboundary animal disease of wild and domestic small ruminants and notifiable byworld organization for animal health (OIE). It constitutes a serious threat to livestock production in many developing countries, in western Africa and southern Asia. The disease is caused by peste des petits ruminants virus (PPRV), a negative sense, single stranded RNAvirus belonging to the genus Morbillivirus of the family Paramyxoviridae (Gibbs et al. 1979). PPRV causes huge disease burden on agriculture across developing world, affecting small ruminant production and in turn increases poverty in some of the poorest parts of the world (Banyard et al. 2010). In PPR endemic regions of the world, conventional live attenuated vaccines are being used to vaccinate small ruminants (Diallo et al. 1989). Currently, the original Nigerian strain of PPRV (Nig 75/1) is used in the African countries (Diallo 2003). In India, three Indian strains of PPRV have been attenuated and shown to provide protective immunity (Saravanan et al. 2010). Although the live attenuated vaccines are efficacious, they suffer from the same draw back as that of live attenuated Rinderpest vaccine in terms of heat stability. This puts severe constraints on the coverage of small ruminant’s population during vaccination campaigns. Although there is one report of a method for making a heat stable live attenuated vaccine (Worrwall et al. 2000), such a thermo stable vaccine has not been put to use or field tested. Another major disadvantage of using live attenuated vaccine is that the antibody responses they induce in animals cannot be distinguished from those following a natural infection. This makes sero-epidemio surveillance of the disease impossible in endemic areas where a vaccination programme has been or is being implemented. The immune response to a given antigen can be regulated by a number of idiotypic determinants (Ids), and its counterpart, an anti-idiotypic antibody (anti-Id) or Ab2 (Jerne 1974). An idiotype is located on the variable regions of antibody molecules. An internal image anti-Id, Ab2 β recognizes an idiotypic determinant within the antigen combining site and bears a structural resemblance to the original antigen (Bona and Kohler 1984). The internal image Ab2 β antibodies have been shown to induce specific immune responses to hepatitis B surface antigen in chimpanzees (Kennedy et al. 1986) and as a vaccine candidate for the control of bluetongue infection by functionally mimicking VP7 antigen of bluetongue virus (Zhou and Lin 1997). We had earlier demonstrated that an internal image Ab2 against Rinderpest virus/Peste des petits Ruminants virus H/HN protein elicits virus neutralizing antibodies as well as T cell responses in the mouse model (Vani et al. 2007a). Further, using the mouse model, DNA encoding VH region of Ab2 elicited both neutralizing antibody and T cell responses, in the complete absence of viral antigen and these responses were long lasting (Vani et al. 2007b). * M. S. Shaila shaila@mcbl.iisc.ernet.in

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