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Cryo-EM structures of Candida albicans Cdr1 reveal azole-substrate recognition and inhibitor blocking mechanisms.

Authors :
Peng, Ying
Lu, Yan
Sun, Hui
Ma, Jinying
Li, Xiaomei
Han, Xiaodan
Fang, Zhixiong
Tan, Junming
Qiu, Yingchen
Qu, Tingting
Yin, Meng
Yan, Zhaofeng
Source :
Nature Communications; 9/6/2024, Vol. 15 Issue 1, p1-11, 11p
Publication Year :
2024

Abstract

In Candida albicans, Cdr1 pumps azole drugs out of the cells to reduce intracellular accumulation at detrimental concentrations, leading to azole-drug resistance. Milbemycin oxime, a veterinary anti-parasitic drug, strongly and specifically inhibits Cdr1. However, how Cdr1 recognizes and exports azole drugs, and how milbemycin oxime inhibits Cdr1 remain unclear. Here, we report three cryo-EM structures of Cdr1 in distinct states: the apo state (Cdr1<superscript>Apo</superscript>), fluconazole-bound state (Cdr1<superscript>Flu</superscript>), and milbemycin oxime-inhibited state (Cdr1<superscript>Mil</superscript>). Both the fluconazole substrate and the milbemycin oxime inhibitor are primarily recognized within the central cavity of Cdr1 through hydrophobic interactions. The fluconazole is suggested to be exported from the binding site into the environment through a lateral pathway driven by TM2, TM5, TM8 and TM11. Our findings uncover the inhibitory mechanism of milbemycin oxime, which inhibits Cdr1 through competition, hindering export, and obstructing substrate entry. These discoveries advance our understanding of Cdr1-mediated azole resistance in C. albicans and provide the foundation for the development of innovative antifungal drugs targeting Cdr1 to combat azole-drug resistance. Candida albicans Cdr1 pumps azole antifungal drugs out of the cell, driving drug resistance. Here, the authors determine the mechanism of Cdr1-mediated fluconazole resistance and milbemycin oxime inhibition, providing a foundation for future drug discovery efforts. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
20411723
Volume :
15
Issue :
1
Database :
Complementary Index
Journal :
Nature Communications
Publication Type :
Academic Journal
Accession number :
179504794
Full Text :
https://doi.org/10.1038/s41467-024-52107-w