OBJECTIVE: We describe the effectiveness of a prime-boost vaccination regimen using the open-reading frame (ORFF) gene from the LD1 locus of Leishmania donovani. METHODS: A group of BALB/c mice was immunized with the plasmid carrying the gene for ORFF (F/pcDNA 3.1) and given a booster dose of either the same DNA vaccine or a vaccine with a recombinant ORFF (rORFF) protein. Another group of BALB/c mice was immunized and given a booster dose of the rORFF protein vaccine. The protective efficacies of these vaccine formulations were compared after challenge with L. donovani stationary-phase promastigotes. RESULTS: Mice given the prime-boost vaccination regimen had an enhanced reduction in parasite load (75%-80%), compared with that in mice given only the rORFF protein vaccine (45%-60%). However, the protective response induced in the prime-boost group was not more than that elicited in the DNA vaccine group. Immunization with only the rORFF protein vaccine did not induce the typical T helper response, whereas priming with the DNA vaccine resulted in enhanced production of immunoglobulin G2a and interferon- gamma . Furthermore, priming with the DNA vaccine also led to enhanced proliferation of splenocytes, suggesting subsequent expansion of antigen-specific T cells. CONCLUSIONS: The heterologous prime-boost vaccination strategy may be utilized for visceral leishmaniasis.
OBJECTIVE: We describe the effectiveness of a prime-boost vaccination regimen using the open-reading frame (ORFF) gene from the LD1 locus of Leishmania donovani. METHODS: A group of BALB/c mice was immunized with the plasmid carrying the gene for ORFF (F/pcDNA 3.1) and given a booster dose of either the same DNA vaccine or a vaccine with a recombinant ORFF (rORFF) protein. Another group of BALB/c mice was immunized and given a booster dose of the rORFF protein vaccine. The protective efficacies of these vaccine formulations were compared after challenge with L. donovani stationary-phase promastigotes. RESULTS:Mice given the prime-boost vaccination regimen had an enhanced reduction in parasite load (75%-80%), compared with that in mice given only the rORFF protein vaccine (45%-60%). However, the protective response induced in the prime-boost group was not more than that elicited in the DNA vaccine group. Immunization with only the rORFF protein vaccine did not induce the typical T helper response, whereas priming with the DNA vaccine resulted in enhanced production of immunoglobulin G2a and interferon- gamma . Furthermore, priming with the DNA vaccine also led to enhanced proliferation of splenocytes, suggesting subsequent expansion of antigen-specific T cells. CONCLUSIONS: The heterologous prime-boost vaccination strategy may be utilized for visceral leishmaniasis.
Authors: Mohamed L Salem; Marina Demcheva; William E Gillanders; David J Cole; John N Vournakis Journal: Anticancer Res Date: 2010-10 Impact factor: 2.480
Authors: Yasuyuki Goto; Ajay Bhatia; Vanitha S Raman; Silvia E Z Vidal; Sylvie Bertholet; Rhea N Coler; Randall F Howard; Steven G Reed Journal: Vaccine Date: 2009-03-09 Impact factor: 3.641
Authors: Felicitat Todolí; Alhelí Rodríguez-Cortés; María Del Carmen Núñez; Márcia D Laurenti; Silvia Gómez-Sebastián; Fernando Rodríguez; Eva Pérez-Martín; José M Escribano; Jordi Alberola Journal: PLoS One Date: 2012-12-07 Impact factor: 3.240
Authors: Marcia W Carneiro; Diego M Santos; Kiyoshi F Fukutani; Jorge Clarencio; Jose Carlos Miranda; Claudia Brodskyn; Aldina Barral; Manoel Barral-Netto; Manuel Soto; Camila I de Oliveira Journal: PLoS One Date: 2012-12-20 Impact factor: 3.240