Structural basis for inhibition and regulation of a chitin synthase from Candida albicans.

Zhenning Ren, Abhishek Chhetri, Ziqiang Guan, Yang Suo, Kenichi Yokoyama, Seok-Yong Lee

Nature structural & molecular biology 2022 Jul

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Chitin is an essential component of the fungal cell wall. Chitin synthases (Chss) catalyze chitin formation and translocation across the membrane and are targets of antifungal agents, including nikkomycin Z and polyoxin D. Lack of structural insights into the action of these inhibitors on Chs has hampered their further development to the clinic. We present the cryo-EM structures of Chs2 from Candida albicans (CaChs2) in the apo, substrate-bound, nikkomycin Z-bound, and polyoxin D-bound states. CaChs2 adopts a unique domain-swapped dimer configuration where a conserved motif in the domain-swapped region controls enzyme activity. CaChs2 has a dual regulation mechanism where the chitin translocation tunnel is closed by the extracellular gate and plugged by a lipid molecule in the apo state to prevent non-specific leak. Analyses of substrate and inhibitor binding provide insights into the chemical logic of Chs inhibition, which can guide Chs-targeted antifungal development. © 2022. The Author(s), under exclusive licence to Springer Nature America, Inc.

Citation

Zhenning Ren, Abhishek Chhetri, Ziqiang Guan, Yang Suo, Kenichi Yokoyama, Seok-Yong Lee. Structural basis for inhibition and regulation of a chitin synthase from Candida albicans. Nature structural & molecular biology. 2022 Jul;29(7):653-664