Abstract
While the COVID-19 crisis is still ongoing, a new public health threat has emerged with recent outbreaks of monkeypox (mpox) infections in Africa. Mass vaccination is not currently recommended by the World Health Organization (WHO), and antiviral treatments are yet to be specifically approved for mpox, although existing FDA-approved drugs (Tecovirimat, Brincidofovir, and Cidofovir) may be used in severe cases or for immunocompromised patients. A first-line of defense is thus drug repurposing, which was heavily attempted against SARS-CoV-2 - albeit with limited success. This review focuses on nucleoside analogues as promising antiviral candidates for targeting of the viral DNA-dependent DNA polymerase. In contrast to broad-spectrum screening approaches employed for SARS-CoV-2, we emphasize the importance of understanding the structural specificity of viral polymerases for rational selection of potential candidates. By comparing DNA-dependent DNA polymerases with other viral polymerases, we highlight the unique features that influence the efficacy and selectivity of nucleoside analogues. These structural insights provide a framework for the preselection, repurposing, optimization, and design of nucleoside analogues, aiming to accelerate the development of targeted antiviral therapies for mpox and other viral infections.
Published Version
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