Abstract
The prevalence of invasive fungal infections has been dramatically increased as the size of the immunocompromised population worldwide has grown. Aspergillus fumigatus is characterized as one of the most widespread and ubiquitous fungal pathogens. Among antifungal drugs, azoles have been the most widely used category for the treatment of fungal infections. However, increasingly, azole-resistant strains constitute a major problem to be faced. Towards this direction, our study focused on the identification of compounds bearing novel structural motifs which may evolve as a new class of antifungals. To fulfil this scope, a combination of in silico techniques and in vitro assays were implemented. Specifically, a ligand-based pharmacophore model was created and served as a 3D search query to screen the ZINC chemical database. Additionally, molecular docking and molecular dynamics simulations were used to improve the reliability and accuracy of virtual screening results. In total, eight compounds, bearing completely different chemical scaffolds from the commercially available azoles, were proposed and their antifungal activity was evaluated using in vitro assays. Results indicated that all tested compounds exhibit antifungal activity, especially compounds 1, 2, and 4, which presented the most promising minimum inhibitory concentration (MIC) and minimum fungicidal concentration (MFC) values and, therefore, could be subjected to further hit to lead optimization.
Highlights
In recent decades, fungal infections have been one of the most common and serious health problems worldwide
The main goal of this study was the discovery of novel scaffolds which could serve as starting structures to develop new drugs with antifungal activity
The results clearly indicate that all examined compounds exhibit antifungal activity and could serve as new starting scaffolds for further hit to lead optimization
Summary
Fungal infections have been one of the most common and serious health problems worldwide. Their importance is highlighted by the fact that they are responsible for over one million human deaths per year [1]. One of the most common airborne fungal pathogens, causing serious and usually fatal invasive infections, is Aspergillus fumigatus [3]. The disease caused by fungi of the Aspergillus genus is known in the literature as aspergillosis This disease is generally separated into three categories, based mainly on the range of symptoms it causes, namely allergic bronchopulmonary aspergillosis (ABPA) [6], chronic necrotizing aspergillosis [7], and invasive aspergillosis (IA) [8]. Recent studies proved that IA is responsible for >300,000 cases worldwide [9]
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