First-line treatment of aspergillosis typically involves the use of azole antifungals. Worryingly, their future clinical use is challenged by an alarming increase in resistance.
Aspergillus fumigatus is one of the deadliest fungal species causing hundreds of thousands of deaths each year. As azoles provide the preferred first-line option for treatment of Aspergillosis, the increase in rates of resistance and the poor therapeutic outcomes for those infected with a resistant isolate constitutes a serious global health threat. Azole resistance is frequently associated with specific tandem repeat duplications of a promoter element upstream of cyp51A, the gene which encodes the target for this drug class in A. fumigatus. This promoter element is recognized by the activating transcription factors SrbA and AtrR. This region also provides a docking platform for the CCAAT-binding-complex (CBC) and HapX that cooperate in the regulation of genes involved in iron-consuming pathways including cyp51A. Here, we studied the regulatory contribution of SrbA, AtrR, CBC and HapX binding sites on cyp51A expression and azole resistance during different iron availability employing promoter mutational analysis and protein/DNA interaction analysis. This strategy revealed iron status-dependent and -independent roles of these regulatory elements. We show that promoter occupation by both AtrR and SrbA is required for iron-independent steady-state transcriptional activation of cyp51A and its induction during short-term iron exposure relies on HapX binding. We further uncover the HapX binding site as repressor element the disruption of which elevates cyp51A expression and azole resistance regardless of iron availability.
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