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W4210536773 abstract "Microbes have developed their own specific strategies to cope with reactive oxygen species (ROS). Catalase, a heme-containing tetramer expressed in a broad range of aerobic fungi, shows remarkable efficiency in degrading hydrogen peroxide (H2 O2 ) for fungal survival and host invasion. Here, it is demonstrated that catalase inactivation by blue light renders fungal cells highly susceptible to ROS attack. To confirm catalase as a major molecular target of blue light, wild type Candida albicans are systematically compared with a catalase-deficient mutant strain regarding their susceptibility to ROS through 410 nm treatment. Upon testing a wide range of fungal species, it is found that intracellular catalase can be effectively and universally inactivated by 410 nm blue light. It is also found that photoinactivation of catalase in combination with ROS-generating agents is highly effective in total eradication of various fungal species, including multiple Candida auris strains, the causative agent of the global fungal epidemic. In addition, photoinactivation of catalase is shown to facilitate macrophage killing of intracellular Candida albicans. The antifungal efficacy of catalase photoinactivation is further validated using a C. albicans-induced mouse model of skin abrasion. Taken together, the findings offer a novel catalase-photoinactivation approach to address multidrug-resistant Candida infections." @default.
W4210536773 created "2022-02-08" @default.
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W4210536773 date "2022-02-04" @default.
W4210536773 modified "2023-10-14" @default.
W4210536773 title "Photoinactivation of Catalase Sensitizes <i>Candida albicans</i> and <i>Candida auris</i> to ROS‐Producing Agents and Immune Cells" @default.
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W4210536773 cites W1977346904 @default.
W4210536773 cites W1987095367 @default.
W4210536773 cites W1994976851 @default.
W4210536773 cites W1997854294 @default.
W4210536773 cites W2000919475 @default.
W4210536773 cites W2006535206 @default.
W4210536773 cites W2007848501 @default.
W4210536773 cites W2016562927 @default.
W4210536773 cites W2021756057 @default.
W4210536773 cites W2045076069 @default.
W4210536773 cites W2051675542 @default.
W4210536773 cites W2066650452 @default.
W4210536773 cites W2092678986 @default.
W4210536773 cites W2095802468 @default.
W4210536773 cites W2098578474 @default.
W4210536773 cites W2099215866 @default.
W4210536773 cites W2099241550 @default.
W4210536773 cites W2113522006 @default.
W4210536773 cites W2114950068 @default.
W4210536773 cites W2119282845 @default.
W4210536773 cites W2127827593 @default.
W4210536773 cites W2133328722 @default.
W4210536773 cites W2143839871 @default.
W4210536773 cites W2144035662 @default.
W4210536773 cites W2144495358 @default.
W4210536773 cites W2147728554 @default.
W4210536773 cites W2148319016 @default.
W4210536773 cites W2150111600 @default.
W4210536773 cites W2158576945 @default.
W4210536773 cites W2160708546 @default.
W4210536773 cites W2170764510 @default.
W4210536773 cites W2200963627 @default.
W4210536773 cites W2289397227 @default.
W4210536773 cites W2463019124 @default.
W4210536773 cites W2567259201 @default.
W4210536773 cites W2624911965 @default.
W4210536773 cites W2750959598 @default.
W4210536773 cites W2753619282 @default.
W4210536773 cites W2755519984 @default.
W4210536773 cites W2763228608 @default.
W4210536773 cites W2763460230 @default.
W4210536773 cites W2765466553 @default.
W4210536773 cites W2769416112 @default.
W4210536773 cites W2796969235 @default.
W4210536773 cites W2808632617 @default.
W4210536773 cites W2899359448 @default.
W4210536773 cites W2899489704 @default.
W4210536773 cites W2933583648 @default.
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W4210536773 cites W2953431223 @default.
W4210536773 cites W2990647835 @default.
W4210536773 cites W3002295700 @default.
W4210536773 cites W3005653011 @default.
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W4210536773 cites W3092360311 @default.
W4210536773 cites W3108282475 @default.
W4210536773 cites W3114762667 @default.
W4210536773 cites W3118284081 @default.
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W4210536773 cites W3119470202 @default.
W4210536773 cites W3120665294 @default.
W4210536773 cites W3122905946 @default.
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W4210536773 doi "https://doi.org/10.1002/advs.202104384" @default.
W4210536773 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35119220" @default.
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