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Journal article

Berberine reverses multidrug resistance in Candida albicans by hijacking the drug efflux pump Mdr1p

By Tong, Yaojun1,4; Zhang, Jingyu5; Sun, Nuo6; Wang, Xiang Ming7; Wei, Qi8; Zhang, Yu9; Huang, Ren9; Pu, Yingying7; Dai, Huanqin8; Ren, Biao8; Pei, Gang8; Song, Fuhang8; Zhu, Guoliang5; Wang, Xinye5; Xia, Xuekui10; Chen, Xiangyin5; Jiang, Lan5; Wang, Shenlin5; Ouyang, Liming5; Xie, Ning11; Zhang, Buchang2; Jiang, Yuanying3; Liu, Xueting5; Calderone, Richard6; Bai, Fan7; Zhang, Lixin5; Alterovitz, Gil11 ...and 17 more

From

Natural Products Genome Mining, Novo Nordisk Foundation Center for Biosustainability, Technical University of Denmark1

Anhui University2

Second Military Medical University3

Novo Nordisk Foundation Center for Biosustainability, Technical University of Denmark4

East China University of Science and Technology5

Georgetown University6

Peking University7

CAS - Institute of Microbiology8

Guangdong Laboratory Animals Monitoring Institute9

Qilu University of Technology10

Brigham and Women’s Hospital11

...and 1 more

Clinical use of antimicrobials faces great challenges from the emergence of multidrug-resistant pathogens. The overexpression of drug efflux pumps is one of the major contributors to multidrug resistance (MDR). Reversing the function of drug efflux pumps is a promising approach to overcome MDR by reversing the function of drug efflux pumps.

In the life-threatening fungal pathogen Candida albicans, the major facilitator superfamily (MFS) transporter Mdr1p can excrete many structurally unrelated antifungals, leading to multidrug resistance. Here we report a counterintuitive case of reversing MDR in C. albicans by using a natural product berberine to hijack the overexpressed Mdr1p for its own importation.

Moreover, we illustrate that the imported berberine accumulates in mitochondria and compromises the mitochondrial function by impairing mitochondrial membrane potential and mitochondrial Complex I. This results in the selective elimination of Mdr1p overexpressed C. albicans cells. Furthermore, we show that berberine treatment can prolong the mean survival time (MST) of mice with blood-borne dissemination of Mdr1p overexpressed multidrug-resistant candidiasis.

This study provides a potential direction of novel anti-MDR drug discovery by screening for multidrug efflux pump converters.

Language: English
Year: 2021
Pages: 1895-1905
ISSN: 20959281 and 20959273
Types: Journal article
DOI: 10.1016/j.scib.2020.12.035
ORCIDs: Tong, Yaojun
Keywords

Berberine Candida albicans Drug excretion transporter Mitochondria Multidrug-resistance

Other keywords

Animals Antifungal Agents Drug Resistance, Multiple Fluconazole Mice

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