SUMMARY Rift Valley fever virus (RVFV) is a mosquito-transmitted bunyavirus (genus Phlebovirus)associated with severe disease in livestock and fatal encephalitis or haemorrhagic fever in a proportion of infected humans. Although live attenuated and inactivated vaccines have been used in livestock, and on a limited scale in humans, there is a need for improved anti-RVFV vaccines. Towards this goal, Sindbis virus replicon vectors expressing the RVFV Gn and Gc glycoproteins, as well as the non-structural nsM protein, were constructed and evaluated for their ability to induce protective immune responses against RVFV. These replicon vectors were shown to produce the RVFV glycoproteins to high levels in vitro and to induce systemic anti-RVFV antibody responses in immunized mice, as determined by RVFV-specific ELISA, fluorescent antibody tests, and demonstration of a neutralizing antibody response. Replicon vaccination also provided 100% protection against lethal RVFV challenge by either the intraperitoneal or intranasal route. Furthermore, preliminary results indicate that the replicon vectors elicit RVFV-specific neutralizing antibody responses in vaccinated sheep. These results suggest that alphavirus-based replicon vectors can induce protective immunity against RVFV, and that this approach merits further investigation into its potential utility as a RVFV vaccine.
Dengue viruses (DENV) are members of the family Flaviviridae and one of the most important groups of emerging viruses of global significance today (36, 66). There are four distinct antigenic serotypes (DENV1, DENV2, DENV3, and DENV4), all of which are capable of causing a spectrum of diseases in humans ranging from asymptomatic infections to debilitating classical dengue fever and severe and often fatal dengue hemorrhagic fever/dengue shock syndrome (DHF/ DSS) (36,68). DENV is transmitted to humans primarily by the mosquito Aedes aegypti. The lack of effective mosquito control, as well as demographic and economic changes, has contributed to the dramatic expansion and worldwide distribution of DENV epidemic activity in tropical and subtropical areas (36). It is estimated that up to 100 million infections and several hundred thousand cases of DHF/DSS occur each year, with more than 2.5 billion people living in areas at risk of infection in 2004 (21, 68). DHF is a leading cause of hospitalization and death among children in many countries in Southeast and South Asia, and the WHO has reported a rising trend in disease over the past decade (68). At the peak of epidemic times, as many as 70 children with severe DHF may present to a single hospital in a day, 20 of them with potentially fatal DSS (58). Although DHF/DSS in infants has not been comprehensively studied, it is estimated that more than 5% of all DHF/ DSS cases occur in infants (26,33,41,43,56,67,70).In the absence of vector control effective on a global scale, there is a clear need for a DENV vaccine. However, the development of a DENV vaccine has faced significant challenges that have resulted in the lack of a licensed vaccine after 70 years of research (17). In many areas where there is cocirculation of two or more serotypes, there is a high probability that individuals will be infected more than once in their lifetimes. Preexisting homotypic immunity protects from a secondary infection with the same serotype, and this protection seems to last for life (24,25). However, preexisting heterotypic nonneutralizing immunity to a secondary infection with a different DENV serotype is a risk factor for the development of severe DHF/DSS (23, 27, 61). These considerations suggest that a safe and efficacious DENV vaccine must be tetravalent and induce a long-term and balanced immune response to all four serotypes simultaneously in order to avoid sensitizing the vaccine recipient to a more severe outcome during a subsequent DENV infection. Additionally, primary infections during the first year of life that result in DHF/DSS have been associated with the presence of subneutralizing levels of maternal anti-DENV antibodies, which may increase the risk of enhanced infection and disease by antibody-mediated enhancement (26,33,41,56). To protect infants and children in dengue-endemic countries from severe dengue, the ideal DENV vaccine should
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