| Literature DB >> 33552848 |
Ozgun Kocabiyik1, Valeria Cagno1,2, Paulo Jacob Silva1, Yong Zhu1, Laura Sedano3, Yoshita Bhide4,5, Joelle Mettier3, Chiara Medaglia2, Bruno Da Costa3, Samuel Constant6, Song Huang6, Laurent Kaiser7, Wouter L J Hinrichs4, Anke Huckriede5, Ronan Le Goffic3, Caroline Tapparel2, Francesco Stellacci1,8.
Abstract
Influenza is one of the most widespread viral infections worldwide and represents a major public health problem. The risk that one of the next pandemics is caused by an influenza strain is high. It is important to develop broad-spectrum influenza antivirals to be ready for any possible vaccine shortcomings. Anti-influenza drugs are available but they are far from ideal. Arguably, an ideal antiviral should target conserved viral domains and be virucidal, that is, irreversibly inhibit viral infectivity. Here, a new class of broad-spectrum anti-influenza macromolecules is described that meets these criteria and display exceedingly low toxicity. These compounds are based on a cyclodextrin core modified on its primary face with long hydrophobic linkers terminated either in 6'sialyl-N-acetyllactosamine (6'SLN) or in 3'SLN. SLN enables nanomolar inhibition of the viruses while the hydrophobic linkers confer irreversibility to the inhibition. The combination of these two properties allows for efficacy in vitro against several human or avian influenza strains, as well as against a 2009 pandemic influenza strain ex vivo. Importantly, it is shown that, in mice, one of the compounds provides therapeutic efficacy when administered 24 h post-infection allowing 90% survival as opposed to no survival for the placebo and oseltamivir.Entities:
Keywords: 3’SLN; 6’SLN; Influenza; antivirals; virucidal
Year: 2020 PMID: 33552848 PMCID: PMC7856883 DOI: 10.1002/advs.202001012
Source DB: PubMed Journal: Adv Sci (Weinh) ISSN: 2198-3844 Impact factor: 16.806