ABSTRACTThe echinocandins are a class of semisynthetic natural products that target β-1,3-glucan synthase (GS). Their proven clinical efficacy combined with minimal safety issues has made the echinocandins an important asset in the management of fungal infection in a variety of patient populations. However, the echinocandins are delivered only parenterally. A screen for antifungal bioactivities combined with mechanism-of-action studies identified a class of piperazinyl-pyridazinones that target GS. The compounds exhibitedin vitroactivity comparable, and in some cases superior, to that of the echinocandins. The compounds inhibit GSin vitro, and there was a strong correlation between enzyme inhibition andin vitroantifungal activity. In addition, like the echinocandins, the compounds caused a leakage of cytoplasmic contents from yeast and produced a morphological response in molds characteristic of GS inhibitors. Spontaneous mutants ofSaccharomyces cerevisiaewith reduced susceptibility to the piperazinyl-pyridazinones had substitutions inFKS1. The sites of these substitutions were distinct from those conferring resistance to echinocandins; likewise, echinocandin-resistant isolates remained susceptible to the test compounds. Finally, we present efficacy and pharmacokinetic data on an example of the piperazinyl-pyridazinone compounds that demonstrated efficacy in a murine model ofCandida glabratainfection.
A GTP-binding protein regulates the activity of (1–>3)-beta-glucan synthase, an enzyme directly involved in yeast cell wall morphogenesis.
