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PubMed Publications| Keyword search (4,163 papers available) |  |
"autophagy" Keyword-tagged Publications:
| Title | Authors | PubMed ID | |
|---|---|---|---|
| 1 | A Humanized Yeast Model for Studying TRAPP Complex Mutations; Proof-of-Concept Using Variants from an Individual with a TRAPPC1-Associated Neurodevelopmental Syndrome | Zykaj E; Abboud C; Asadi P; Warsame S; Almousa H; Milev MP; Greco BM; López-Sánchez M; Bratkovic D; Kachroo AH; Pérez-Jurado LA; Sacher M; | 39273027 BIOLOGY |
| 2 | Otilonium Bromide Exhibits Potent Antifungal Effects by Blocking Ergosterol Plasma Membrane Localization and Triggering Cytotoxic Autophagy in Candida Albicans | Zhen C; Wang L; Feng Y; Whiteway M; Hang S; Yu J; Lu H; Jiang Y; | 38995235 BIOLOGY |
| 3 | TRAPPing a neurological disorder: from yeast to humans. | Lipatova Z, Van Bergen N, Stanga D, Sacher M, Christodoulou J, Segev N | 32116085 BIOLOGY |
| 4 | Deficiencies in vesicular transport mediated by TRAPPC4 are associated with severe syndromic intellectual disability. | Van Bergen NJ, Guo Y, Al-Deri N, Lipatova Z, Stanga D, Zhao S, Murtazina R, Gyurkovska V, Pehlivan D, Mitani T, Gezdirici A, Antony J, Collins F, Willis MJH, Coban Akdemir ZH, Liu P, Punetha J, Hunter JV, Jhangiani SN, Fatih JM, Rosenfeld JA, Posey JE, Gibbs RA, Karaca E, Massey S, Ranasinghe TG, Sleiman P, Troedson C, Lupski JR, Sacher M, Segev N, Hakonarson H, Christodoulou J | 31794024 BIOLOGY |
| 5 | Diindolylmethane and its halogenated derivatives induce protective autophagy in human prostate cancer cells via induction of the oncogenic protein AEG-1 and activation of AMP-activated protein kinase (AMPK). | Draz H, Goldberg AA, Titorenko VI, Tomlinson Guns ES, Safe SH, Sanderson JT | 28923415 BIOLOGY |
| Title: | Otilonium Bromide Exhibits Potent Antifungal Effects by Blocking Ergosterol Plasma Membrane Localization and Triggering Cytotoxic Autophagy in Candida Albicans | ||||
| Authors: | Zhen C, Wang L, Feng Y, Whiteway M, Hang S, Yu J, Lu H, Jiang Y | ||||
| Link: | https://pubmed.ncbi.nlm.nih.gov/38995235/ | ||||
| DOI: | 10.1002/advs.202406473 | ||||
| Publication: | Advanced science (Weinheim, Baden-Wurttemberg, Germany) | ||||
| Keywords: | autophagy; candida albicans; ergosterol plasma membrane localization; otilonium bromide; | ||||
| PMID: | 38995235 | Category: | Date Added: | 2024-07-12 | |
| Dept Affiliation: |
BIOLOGY
1 Department of Pharmacy, Shanghai Tenth People's Hospital, School of Medicine, Tongji University, No.1239 Siping Road, Shanghai, 200092, China. 2 Department of Biology, Concordia University, Montreal, QC, H4B 1R6, Canada. |
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Description: |
Candidiasis, which presents a substantial risk to human well-being, is frequently treated with azoles. However, drug-drug interactions caused by azoles inhibiting the human CYP3A4 enzyme, together with increasing resistance of Candida species to azoles, represent serious issues with this class of drug, making it imperative to develop innovative antifungal drugs to tackle this growing clinical challenge. A drug repurposing approach is used to examine a library of Food and Drug Administration (FDA)-approved drugs, ultimately identifying otilonium bromide (OTB) as an exceptionally encouraging antifungal agent. Mechanistically, OTB impairs vesicle-mediated trafficking by targeting Sec31, thereby impeding the plasma membrane (PM) localization of the ergosterol transporters, such as Sip3. Consequently, OTB obstructs the movement of ergosterol across membranes and triggers cytotoxic autophagy. It is noteworthy that C. albicans encounters challenges in developing resistance to OTB because it is not a substrate for drug transporters. This study opens a new door for antifungal therapy, wherein OTB disrupts ergosterol subcellular distribution and induces cytotoxic autophagy. Additionally, it circumvents the hepatotoxicity associated with azole-mediated liver enzyme inhibition and avoids export-mediated drug resistance in C. albicans. |
