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1. An expanded toolkit of drug resistance cassettes for Candida glabrata , Candida auris , and Candida albicans leads to new insights into the ergosterol pathway

   https://doi.org/10.1128/msphere.00311-23  

   Gregor, Justin B.; Gutierrez-Schultz, Victor A.; Hoda, Smriti; Baker, Kortany M.; Saha, Debasmita; Burghaze, Madeline G.; Vazquez, Cynthia; Burgei, Kendra E.; Briggs, Scott D. (December 2023, mSphere)

   Mitchell, Aaron P. (Ed.)

   ABSTRACT The World Health Organization recently published the first list of priority fungal pathogens highlighting multipleCandidaspecies, includingCandida glabrata,Candida albicans, andCandida auris. However, prior studies in these pathogens have been mainly limited to the use of two drug resistance cassettes,NatMXandHphMX, limiting genetic manipulation capabilities in prototrophic laboratory strains and clinical isolates. In this study, we expanded the toolkit forC. glabrata,C. auris, andC. albicansto includeKanMXandBleMXwhen coupled with anin vitroassembled CRISPR-Cas9 ribonucleoprotein (RNP)-based system. Repurposing these drug resistance cassettes forCandida, we were able to make single gene deletions, sequential and simultaneous double gene deletions, epitope tags, and rescue constructs. We applied these drug resistance cassettes to interrogate the ergosterol pathway, a critical pathway for both the azole and polyene antifungal drug classes. Using our approach, we determined for the first time that the deletion ofERG3inC. glabrata,C. auris,andC. albicansprototrophic strains results in azole drug resistance, which further supports the conservation of the Erg3-dependent toxic sterol model. Furthermore, we show that anERG5deletion inC. glabratais azole susceptible at subinhibitory concentrations, suggesting that Erg5 could act as an azole buffer for Erg11. Finally, we identified a synthetic growth defect when bothERG3andERG5are deleted inC. glabrata,which suggests the possibility of another toxic sterol impacting growth. Overall, we have expanded the genetic tools available to interrogate complex pathways in prototrophic strains and clinical isolates. IMPORTANCEThe increasing problem of drug resistance and emerging pathogens is an urgent global health problem that necessitates the development and expansion of tools for studying fungal drug resistance and pathogenesis. Prior studies inCandida glabrata,Candida auris, andCandida albicanshave been mainly limited to the use ofNatMX/SAT1andHphMX/CaHygfor genetic manipulation in prototrophic strains and clinical isolates. In this study, we demonstrated thatNatMX/SAT1, HphMX, KanMX,and/orBleMXdrug resistance cassettes when coupled with a CRISPR-ribonucleoprotein (RNP)-based system can be efficiently utilized for deleting or modifying genes in the ergosterol pathway ofC. glabrata,C. auris, andC. albicans. Moreover, the utility of these tools has provided new insights intoERGgenes and their relationship to azole resistance inCandida. Overall, we have expanded the toolkit forCandidapathogens to increase the versatility of genetically modifying complex pathways involved in drug resistance and pathogenesis. 

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2. Stable Positions of Epigenetically Inherited Centromeres in the Emerging Fungal Pathogen Candida auris and Its Relatives

   https://doi.org/10.1128/mBio.01036-21  

   Rusche, Laura N (August 2021, mBio)

   Candida aurisis an emerging fungal pathogen that is thermotolerant and often resistant to standard antifungal treatments. To trace its evolutionary history, the Sanyal lab conducted a comparative genomic study focusing on the positions of centromeres inC. aurisand eight other species from theClavispora/Candidaclade of yeasts (A. 

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3. Vaginal Isolates of Candida glabrata Are Uniquely Susceptible to Ionophoric Killer Toxins Produced by Saccharomyces cerevisiae

   https://doi.org/10.1128/aac.02450-20  

   Fredericks, Lance R.; Lee, Mark D.; Eckert, Hannah R.; Li, Shunji; Shipley, Mason A.; Roslund, Cooper R.; Boikov, Dina A.; Kizer, Emily A.; Sobel, Jack D.; Rowley, Paul A. (June 2021, Antimicrobial Agents and Chemotherapy)

   ABSTRACT Compared to other species of Candida yeasts, the growth of Candida glabrata is inhibited by many different strains of Saccharomyces killer yeasts. The ionophoric K1 and K2 killer toxins are broadly inhibitory to all clinical isolates of C. glabrata from patients with recurrent vulvovaginal candidiasis, despite high levels of resistance to clinically relevant antifungal therapeutics. 

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4. Evolution and strain diversity advance exploration of Candida albicans biology

   https://doi.org/10.1128/msphere.00641-23  

   Anderson, Matthew Z; Dietz, Siobhan M (August 2024, mSphere)

   Mitchell, Aaron P (Ed.)

   ABSTRACT Fungi were some of the earliest organismal systems used to explore mutational processes and its phenotypic consequences on members of a species. Yeasts that cause significant human disease were quickly incorporated into these investigations to define the genetic and phenotypic drivers of virulence. AmongCandidaspecies,Candida albicanshas emerged as a model for studying genomic processes of evolution because of its clinical relevance, relatively small genome, and ability to tolerate complex chromosomal changes. Here, we describe major recent findings that used evolution of strains from defined genetic backgrounds to delineate mutational and adaptative processes and include how nascent exploration into naturally occurring variation is contributing to these conceptual frameworks. Ultimately, efforts to discern adaptive mechanisms used byC. albicanswill continue to divulge new biology and can better inform treatment regimens for the increasing prevalence of fungal disease. 

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5. A Systematic Review of Culture-Based Methods for Monitoring Antibiotic-Resistant Acinetobacter, Aeromonas, and Pseudomonas as Environmentally Relevant Pathogens in Wastewater and Surface Water

   https://doi.org/10.1007/s40572-023-00393-9  

   Milligan, Erin G.; Calarco, Jeanette; Davis, Benjamin C.; Keenum, Ishi M.; Liguori, Krista; Pruden, Amy; Harwood, Valerie J. (February 2023, Current Environmental Health Reports)

   Abstract Purpose of ReviewMounting evidence indicates that habitats such as wastewater and environmental waters are pathways for the spread of antibiotic-resistant bacteria (ARB) and mobile antibiotic resistance genes (ARGs). We identified antibiotic-resistant members of the generaAcinetobacter,Aeromonas, andPseudomonasas key opportunistic pathogens that grow or persist in built (e.g., wastewater) or natural aquatic environments. Effective methods for monitoring these ARB in the environment are needed to understand their influence on dissemination of ARB and ARGs, but standard methods have not been developed. This systematic review considers peer-reviewed papers where the ARB above were cultured from wastewater or surface water, focusing on the accuracy of current methodologies. Recent FindingsRecent studies suggest that many clinically important ARGs were originally acquired from environmental microorganisms.Acinetobacter,Aeromonas,andPseudomonasspecies are of interest because their ability to persist and grow in the environment provides opportunities to engage in horizontal gene transfer with other environmental bacteria. Pathogenic strains of these organisms resistant to multiple, clinically relevant drug classes have been identified as an urgent threat. However, culture methods for these bacteria were generally developed for clinical samples and are not well-vetted for environmental samples. SummaryThe search criteria yielded 60 peer-reviewed articles over the past 20 years, which reported a wide variety of methods for isolation, confirmation, and antibiotic resistance assays. Based on a systematic comparison of the reported methods, we suggest a path forward for standardizing methodologies for monitoring antibiotic resistant strains of these bacteria in water environments. 

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