Susan J. Dennis scite author profile

African horse sickness is a devastating disease that causes great suffering and many fatalities amongst horses in sub-Saharan Africa. It is caused by nine different serotypes of the orbivirus African horse sickness virus (AHSV) and it is spread by Culicoid midges. The disease has significant economic consequences for the equine industry both in southern Africa and increasingly further afield as the geographic distribution of the midge vector broadens with global warming and climate change. Live attenuated vaccines (LAV) have been used with relative success for many decades but carry the risk of reversion to virulence and/or genetic re-assortment between outbreak and vaccine strains. Furthermore, the vaccines lack DIVA capacity, the ability to distinguish between vaccine-induced immunity and that induced by natural infection. These concerns have motivated interest in the development of new, more favourable recombinant vaccines that utilize viral vectors or are based on reverse genetics or virus-like particle technologies. This review summarizes the current understanding of AHSV structure and the viral replication cycle and also evaluates existing and potential vaccine strategies that may be applied to prevent or control the disease.

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Immunogenicity of plant‐produced African horse sickness virus‐like particles: implications for a novel vaccine

Dennis

Meyers

Guthrie

et al. 2017

Plant Biotechnology Journal

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SummaryAfrican horse sickness (AHS) is a debilitating and often fatal viral disease affecting horses in much of Africa, caused by the dsRNA orbivirus African horse sickness virus (AHSV). Vaccination remains the single most effective weapon in combatting AHS, as there is no treatment for the disease apart from good animal husbandry. However, the only commercially available vaccine is a live‐attenuated version of the virus (LAV). The threat of outbreaks of the disease outside its endemic region and the fact that the LAV is not licensed for use elsewhere in the world, have spurred attempts to develop an alternative safer, yet cost‐effective recombinant vaccine. Here, we report the plant‐based production of a virus‐like particle (VLP) AHSV serotype five candidate vaccine by Agrobacterium tumefaciens‐mediated transient expression of all four capsid proteins in Nicotiana benthamiana using the cowpea mosaic virus‐based HyperTrans (CPMV‐HT) and associated pEAQ plant expression vector system. The production process is fast and simple, scalable, economically viable, and most importantly, guinea pig antiserum raised against the vaccine was shown to neutralize live virus in cell‐based assays. To our knowledge, this is the first report of AHSV VLPs produced in plants, which has important implications for the containment of, and fight against the spread of, this deadly disease.

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Safety and immunogenicity of plant-produced African horse sickness virus-like particles in horses

Dennis

O’Kennedy

Rutkowska

et al. 2018

Vet Res

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African horse sickness (AHS) is caused by multiple serotypes of the dsRNA AHSV and is a major scourge of domestic equids in Africa. While there are well established commercial live attenuated vaccines produced in South Africa, risks associated with these have encouraged attempts to develop new and safer recombinant vaccines. Previously, we reported on the immunogenicity of a plant-produced AHS serotype 5 virus-like particle (VLP) vaccine, which stimulated high titres of AHS serotype 5-specific neutralizing antibodies in guinea pigs. Here, we report a similar response to the vaccine in horses. This is the first report demonstrating the safety and immunogenicity of plant-produced AHS VLPs in horses. Electronic supplementary material The online version of this article (10.1186/s13567-018-0600-4) contains supplementary material, which is available to authorized users.

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The use of the polymerase chain reaction for the detection of human papillomavirus type 13

Williamson

Dennis

1991

Journal of Virological Methods

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Humoral and cell-mediated immune responses to plant-produced African horse sickness virus VP7 quasi-crystals

et al. 2021

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Susan J. Dennis

African Horse Sickness: A Review of Current Understanding and Vaccine Development

Immunogenicity of plant‐produced African horse sickness virus‐like particles: implications for a novel vaccine

Safety and immunogenicity of plant-produced African horse sickness virus-like particles in horses

The use of the polymerase chain reaction for the detection of human papillomavirus type 13

Humoral and cell-mediated immune responses to plant-produced African horse sickness virus VP7 quasi-crystals

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