A preclinical assessment to repurpose drugs to target type 1 diabetes-associated type B coxsackieviruses.

AIM: To screen several antiviral drugs systematically for their efficacy against type B coxsackieviruses. METHODS: Ten drugs with different antiviral mechanisms were analysed for their efficacy against prototype strains of type B coxsackieviruses in A549 cells. Cell viability was quantified in fixed cells using a colorimetric assay. Median effective dose was interpolated from the triplicated experiments and the dose-response curves were generated for each drug-virus combination. Drug cytotoxicity was similarly quantified and selectivity indices calculated. RESULTS: Hizentra, pleconaril, fluoxetine, norfluoxetine, ribavirin, favipiravir, and guanidine hydrochloride were able to abrogate infection by all tested viruses, with the exception of complete inefficacy of pleconaril against coxsackievirus B3 and favipiravir against coxsackievirus B2. The effective doses for Hizentra, enviroxime, ribavirin, favipiravir, and pleconaril were clearly below their therapeutic serum concentrations, while the effective concentrations of fluoxetin, norfluoxetine and itraconazole exceeded their therapeutic serum concentrations. Lovastatin and azithromycin did not efficiently block type B coxsackieviruses. CONCLUSION: Hizentra, enviroxime, pleconaril, ribavirin, and favipiravir are effective against type B coxsackieviruses in vitro in their therapeutic serum concentrations. These antiviral drugs are therefore attractive candidates for type 1 diabetes prevention/treatment trials. They can also be used in other clinical conditions caused by type B coxsackieviruses.

A hexavalent Coxsackievirus B vaccine is highly immunogenic and has a strong protective capacity in mice and nonhuman primates.

Coxsackievirus B (CVB) enteroviruses are common human pathogens known to cause severe diseases including myocarditis, chronic dilated cardiomyopathy, and aseptic meningitis. CVBs are also hypothesized to be a causal factor in type 1 diabetes. Vaccines against CVBs are not currently available, and here we describe the generation and preclinical testing of a novel hexavalent vaccine targeting the six known CVB serotypes. We show that the vaccine has an excellent safety profile in murine models and nonhuman primates and that it induces strong neutralizing antibody responses to the six serotypes in both species without an adjuvant. We also demonstrate that the vaccine provides immunity against acute CVB infections in mice, including CVB infections known to cause virus-induced myocarditis. In addition, it blocks CVB-induced diabetes in a genetically permissive mouse model. Our preclinical proof-of-concept studies demonstrate the successful generation of a promising hexavalent CVB vaccine with high immunogenicity capable of preventing CVB-induced diseases.

Development of polyclonal antisera to clone enterovirus 71 cellular receptor.

PURPOSE: Enterovirus 71 (ENV71) is a member of Picornaviridae family and was shown to be of public health concern in the Far East because of the notorious outbreaks it caused, with novel clinical features in the affected patients. In this study we assessed the use of virus capsid protein VP1 in viral receptor research. MATERIAL AND METHODS: The capsid protein (VP1) was cloned, expressed in a prokaryotic system, and purified for immunisation of rabbits. The immunisation was carried out according to the UK Home Office regulations. The polyclonal antisera were collected and tested for reactivity against recombinant and native VP1 of ENV71. RESULTS: Both antisera were reactive against native and partially/fully denatured viral particles. CONCLUSION: The antisera are functional in receptor studies.