Highly potent, broadly active antifungal agents for the treatment of invasive fungal infections

Invasive fungal infections have become an important healthcare issue due in large part to high mortality rates under standard of care (SOC) therapies creating an urgent need for new and effective anti-fungal agents. We have developed a series of non-peptide, structurally-constrained analogs of host defence proteins that have distinct advantages over peptides for pharmaceutical uses. Here we report the chemical optimization of bis-guanidine analogs focused on alterations of the central aryl core and the connection of it to the terminal guanidines. This effort resulted in the production of highly potent, broadly active compounds with low mammalian cell cytotoxicity that have comparable or improved antifungal activities over SOC agents. One optimal compound was also found to possess favourable in vitro pharmaceutical and off-target properties suitable for further development.

Automated summary

The research team has developed a series of non-peptide antifungal analogs through chemical optimization, resulting in highly potent, broad-spectrum compounds with low mammalian cell cytotoxicity. These compounds have the potential to become new antifungal agents.