Literature DB >> 11483281

First field trial of a transmissible recombinant vaccine against myxomatosis and rabbit hemorrhagic disease.

J M Torres1, C Sánchez, M A Ramírez, M Morales, J Bárcena, J Ferrer, E Espuña, A Pagès-Manté, J M Sánchez-Vizcaíno.   

Abstract

As a novel approach for immunisation of wild rabbits, we have recently developed a transmissible vaccine against myxomatosis and rabbit hemorrhagic disease (RHD) based on a recombinant myxoma virus (MV) expressing the RHDV capsid protein [J. Virol. 74 (2000) 1114]. The efficacy and safety of the vaccine have been extensively evaluated under laboratory conditions. In this study, we report the first limited field trial of the candidate vaccine that was undertaken in an island of 34 Has containing a population of around 300 rabbits. Following administration by the subcutaneous route to 76 rabbits, the vaccine induced specific antibody responses against both myxomatosis and RHDV in all the inoculated rabbits. Furthermore, the recombinant virus exhibited a limited horizontal transmission capacity, promoting seroconversion of around 50% of the uninoculated rabbit population. No evidence of undesirable effects due to the recombinant virus field release was detected.

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Year:  2001        PMID: 11483281     DOI: 10.1016/s0264-410x(01)00184-0

Source DB:  PubMed          Journal:  Vaccine        ISSN: 0264-410X            Impact factor:   3.641


  14 in total

1.  Genome comparison of a nonpathogenic myxoma virus field strain with its ancestor, the virulent Lausanne strain.

Authors:  Mónica Morales; Miguel A Ramírez; María J Cano; Mario Párraga; Joaquín Castilla; Luis I Pérez-Ordoyo; Juan M Torres; Juan Bárcena
Journal:  J Virol       Date:  2008-12-17       Impact factor: 5.103

2.  Transmissible vaccines whose dissemination rates vary through time, with applications to wildlife.

Authors:  Mark W Smithson; Andrew J Basinki; Scott L Nuismer; James J Bull
Journal:  Vaccine       Date:  2019-01-25       Impact factor: 3.641

Review 3.  The current status and future directions of myxoma virus, a master in immune evasion.

Authors:  Bart Spiesschaert; Grant McFadden; Katleen Hermans; Hans Nauwynck; Gerlinde R Van de Walle
Journal:  Vet Res       Date:  2011-06-09       Impact factor: 3.683

Review 4.  The evolution of poxvirus vaccines.

Authors:  Lucas Sánchez-Sampedro; Beatriz Perdiguero; Ernesto Mejías-Pérez; Juan García-Arriaza; Mauro Di Pilato; Mariano Esteban
Journal:  Viruses       Date:  2015-04-07       Impact factor: 5.048

Review 5.  Transmissible Viral Vaccines.

Authors:  James J Bull; Mark W Smithson; Scott L Nuismer
Journal:  Trends Microbiol       Date:  2017-10-13       Impact factor: 17.079

6.  Evaluating the promise of recombinant transmissible vaccines.

Authors:  Andrew J Basinski; Tanner J Varrelman; Mark W Smithson; Ryan H May; Christopher H Remien; Scott L Nuismer
Journal:  Vaccine       Date:  2017-12-24       Impact factor: 3.641

7.  A little goes a long way: Weak vaccine transmission facilitates oral vaccination campaigns against zoonotic pathogens.

Authors:  Andrew J Basinski; Scott L Nuismer; Christopher H Remien
Journal:  PLoS Negl Trop Dis       Date:  2019-03-08

Review 8.  Self-disseminating vaccines to suppress zoonoses.

Authors:  Scott L Nuismer; James J Bull
Journal:  Nat Ecol Evol       Date:  2020-07-27       Impact factor: 19.100

Review 9.  Self-disseminating vaccines for emerging infectious diseases.

Authors:  Aisling A Murphy; Alec J Redwood; Michael A Jarvis
Journal:  Expert Rev Vaccines       Date:  2015-11-02       Impact factor: 5.217

Review 10.  Antigen delivery systems for veterinary vaccine development. Viral-vector based delivery systems.

Authors:  Alejandro Brun; Emmanuel Albina; Tom Barret; David A G Chapman; Markus Czub; Linda K Dixon; Günther M Keil; Bernard Klonjkowski; Marie-Frédérique Le Potier; Geneviève Libeau; Javier Ortego; Jennifer Richardson; Haru-H Takamatsu
Journal:  Vaccine       Date:  2008-12-02       Impact factor: 3.641
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