The Two-Component Response Regulator Ssk1 and the Mitogen-Activated Protein Kinase Hog1 Control Antifungal Drug Resistance and Cell Wall Architecture of Candida auris

Shivarathri, Raju ; Jenull, Sabrina ; Stoiber, Anton ; Chauhan, Manju ; Mazumdar, Rounik ; Singh, Ashutosh ; Nogueira, Filomena ; Kuchler, Karl ; Chowdhary, Anuradha ; Chauhan, Neeraj ; Mitchell, Aaron P. (2020) The Two-Component Response Regulator Ssk1 and the Mitogen-Activated Protein Kinase Hog1 Control Antifungal Drug Resistance and Cell Wall Architecture of Candida auris mSphere, 5 (5). ISSN 2379-5042

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Official URL: http://doi.org/10.1128/mSphere.00973-20

Related URL: http://dx.doi.org/10.1128/mSphere.00973-20

Abstract

Candida auris is an emerging multidrug-resistant human fungal pathogen refractory to treatment by several classes of antifungal drugs. Unlike other Candida species, C. auris can adhere to human skin for prolonged periods of time, allowing for efficient skin-to-skin transmission in the hospital environments. However, molecular mechanisms underlying pronounced multidrug resistance and adhesion traits are poorly understood. Two-component signal transduction and mitogen-activated protein (MAP) kinase signaling are important regulators of adherence, antifungal drug resistance, and virulence. Here, we report that genetic removal of SSK1 encoding a response regulator and the mitogen-associated protein kinase HOG1 restores the susceptibility to both amphotericin B (AMB) and caspofungin (CAS) in C. auris clinical strains. The loss of SSK1 and HOG1 alters membrane lipid permeability, cell wall mannan content, and hyperresistance to cell wall-perturbing agents. Interestingly, our data reveal variable functions of SSK1 and HOG1 in different C. auris clinical isolates, suggesting a pronounced genetic plasticity affecting cell wall function, stress adaptation, and multidrug resistance. Taken together, our data suggest that targeting two-component signal transduction systems could be suitable for restoring C. auris susceptibility to antifungal drugs.

Item Type:Article
Source:Copyright of this article belongs to American Society for Microbiology.
ID Code:133422
Deposited On:28 Dec 2022 09:08
Last Modified:28 Dec 2022 09:08

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