Title of article
Anti-BVDV Activity Evaluation of Naphthoimidazole Derivatives Compared with Parental Imidazoquinoline Compounds
Author/Authors
Ibba, Roberta Department of Chemistry and Pharmacy - University of Sassari, Via Muroni, Italy , Piras, Sandra Department of Chemistry and Pharmacy - University of Sassari, Via Muroni, Italy , Delogu, Ilenia Department of Biomedical Sciences - Section of Microbiology and Virology - University of Cagliari - Cittadella Universitaria, Italy , Loddo, Roberta Department of Biomedical Sciences - Section of Microbiology and Virology - University of Cagliari - Cittadella Universitaria, Italy , Carta, Antonio Department of Chemistry and Pharmacy - University of Sassari, Via Muroni, Italy
Pages
6
From page
65
To page
70
Abstract
Background:
Pestivirus genus includes animal pathogens which are involved in economic impact for the livestock industry. Among others, Bovine Viral Diarrhoea Virus (BVDV) establish a persistent infection in cattle causing a long list of symptoms and a high mortality rate. In the last decades, we synthesised and reported a certain number of anti-BVDV compounds.
Methods:
In them, imidazoquinoline derivatives turned out as the most active. Their mechanism of actions has been deeply investigated, BVDV RNA-dependent RNA polymerase (RpRd) resulted as target and the way of binding was predicted in silico through three main H-bond interaction with the target.
The prediction could be confirmed by target or ligand mutation. The first approach has already been performed and published confirming the in silico prediction.
Results:
Here, we present how the ligand chemical modification affects the anti-BVDV activity. The designed compounds were synthesised and tested against BVDV as in silico assay negative control.
Conclusion:
The antiviral results confirmed the predicted mechanism of action, as the newly synthesised compounds resulted not active in the in vitro BVDV infection inhibition.
Farsi abstract
فاقد چكيده فارسي
Keywords
BVDV , RdRp , Naphthoimidazoles , Antiviral activity , Pestivirus , Synthesis
Journal title
Open Medicinal Chemistry Journal
Serial Year
2020
Full Text URL
Record number
2559372
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