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Overcoming Fungal Echinocandin Resistance through Inhibition of the Non-essential Stress Kinase Yck2.

Cell chemical biology (2020-01-12)
Tavia Caplan, Álvaro Lorente-Macías, Peter J Stogios, Elena Evdokimova, Sabrina Hyde, Melanie A Wellington, Sean Liston, Kali R Iyer, Emily Puumala, Tanvi Shekhar-Guturja, Nicole Robbins, Alexei Savchenko, Damian J Krysan, Luke Whitesell, William J Zuercher, Leah E Cowen
RÉSUMÉ

New strategies are urgently needed to counter the threat to human health posed by drug-resistant fungi. To explore an as-yet unexploited target space for antifungals, we screened a library of protein kinase inhibitors for the ability to reverse resistance of the most common human fungal pathogen, Candida albicans, to caspofungin, a widely used antifungal. This screen identified multiple 2,3-aryl-pyrazolopyridine scaffold compounds capable of restoring caspofungin sensitivity. Using chemical genomic, biochemical, and structural approaches, we established the target for our most potent compound as Yck2, a casein kinase 1 family member. Combination of this compound with caspofungin eradicated drug-resistant C. albicans infection while sparing co-cultured human cells. In mice, genetic depletion of YCK2 caused an ∼3-log10 decline in fungal burden in a model of systemic caspofungin-resistant C. albicans infection. Structural insights and our tool compound's profile in culture support targeting the Yck2 kinase function as a broadly active antifungal strategy.

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Sigma-Aldrich
Periodic Acid-Schiff (PAS) Staining System
Sigma-Aldrich
Voriconazole, ≥98% (HPLC)