<i>Pseudogymnoascus destructans</i> Transcriptional Response to Chronic Copper Stress
2025
Saika Anne | Maranda R. McDonald | Yuan Lu | Ryan L. Peterson
Copper (Cu) is an essential metal micronutrient, and a fungal pathogen’s ability to thrive in diverse niches across a broad range of bioavailable copper levels is vital for host colonization and fungal propagation. Recent transcriptomic studies have implied that trace metal acquisition is important for the propagation of the white nose syndrome (WNS) causing fungus, <i>Pseudogymnoascus destructans</i>, on bat hosts. This report characterizes the <i>P. destructans</i> transcriptional response to Cu-withholding and Cu-overload stress. We identify 583 differently expressed genes (DEGs) that respond to Cu-withholding stress and 667 DEGs that respond to Cu-overload stress. We find that the <i>P. destructans</i> Cu-transporter genes CTR1a and CTR1b, as well as two homologs to <i>Cryptococcus neoformans</i> Cbi1/BIM1 <i>VC83_03095</i> (BLP2) and <i>VC83_07867</i> (BLP3), are highly regulated by Cu-withholding stress. We identify a cluster of genes, <i>VC83_01834</i> – <i>VC83_01838</i>, that are regulated by copper bioavailability, which we identify as the Cu-Responsive gene Cluster (CRC). We find that chronic exposure to elevated copper levels leads to an increase in genes associated with DNA repair and DNA replication fidelity. A comparison of our transcriptomic datasets with <i>P. destructans</i> at WNS fungal infection sites reveals several putative fungal virulence factors that respond to environmental copper stress.
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