An automated high-throughput cell-based multiplexed flow cytometry assay to identify novel compounds to target Candida albicans virulence-related proteins

An automated high-throughput cell-based multiplexed flow cytometry assay to identify novel compounds to target Candida albicans virulence-related proteins

Although three major classes of systemic antifungal agents are clinically available, each is characterized by important limitations. Thus, there has been considerable ongoing effort to develop novel and repurposed agents for the therapy of invasive fungal infections. In an effort to address these ne...

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Veröffentlicht in:PloS one 2014-10, Vol.9 (10), p.e110354-e110354
Hauptverfasser: Bernardo, Stella M, Allen, Christopher P, Waller, Anna, Young, Susan M, Oprea, Tudor, Sklar, Larry A, Lee, Samuel A
Format: Artikel
Sprache:eng
Schlagworte:
Antifungal agents
Antifungal Agents - pharmacology
Assaying
Biofilms
Biology and Life Sciences
Candida
Candida albicans
Candida albicans - drug effects
Candida albicans - genetics
Change detection
Cytometry
Drug resistance
Flow cytometry
Flow Cytometry - methods
Fluorescence
Fungi
Fungicides
Gene Expression
Genes, Reporter
High-throughput screening
High-Throughput Screening Assays
Humans
Hypothesis testing
Infections
Infectious diseases
Inhibitors
Laboratories
Laboratory equipment
Medical screening
Medicine and Health Sciences
Microbial Sensitivity Tests - methods
Modulation
Mortality
Multiplexing
Opportunist infection
Pathogenesis
Pathogens
Phenotype
Proteins
Recombinant Fusion Proteins - genetics
Reproducibility of Results
Research and Analysis Methods
Screening
Small Molecule Libraries
Target recognition
Virulence
Virulence - genetics
Yeast
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container_end_page e110354
container_issue 10
container_start_page e110354
container_title PloS one
container_volume 9
creator Bernardo, Stella M
Allen, Christopher P
Waller, Anna
Young, Susan M
Oprea, Tudor
Sklar, Larry A
Lee, Samuel A
description Although three major classes of systemic antifungal agents are clinically available, each is characterized by important limitations. Thus, there has been considerable ongoing effort to develop novel and repurposed agents for the therapy of invasive fungal infections. In an effort to address these needs, we developed a novel high-throughput, multiplexed screening method that utilizes small molecules to probe candidate drug targets in the opportunistic fungal pathogen Candida albicans. This method is amenable to high-throughput automated screening and is based upon detection of changes in GFP levels of individually tagged target proteins. We first selected four GFP-tagged membrane-bound proteins associated with virulence or antifungal drug resistance in C. albicans. We demonstrated proof-of-principle that modulation of fluorescence intensity can be used to assay the expression of specific GFP-tagged target proteins to inhibitors (and inducers), and this change is measurable within the HyperCyt automated flow cytometry sampling system. Next, we generated a multiplex of differentially color-coded C. albicans strains bearing C-terminal GFP-tags of each gene encoding candidate drug targets incubated in the presence of small molecules from the Prestwick Chemical Library in 384-well microtiter plate format. Following incubation, cells were sampled through the HyperCyt system and modulation of protein levels, as indicated by changes in GFP-levels of each strain, was used to identify compounds of interest. The hit rate for both inducers and inhibitors identified in the primary screen did not exceed 1% of the total number of compounds in the small-molecule library that was probed, as would be expected from a robust target-specific, high-throughput screening campaign. Secondary assays for virulence characteristics based on null mutant strains were then used to further validate specificity. In all, this study presents a method for the identification and verification of new antifungal drugs targeted to fungal virulence proteins using C. albicans as a model fungal pathogen.
doi_str_mv 10.1371/journal.pone.0110354
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Thus, there has been considerable ongoing effort to develop novel and repurposed agents for the therapy of invasive fungal infections. In an effort to address these needs, we developed a novel high-throughput, multiplexed screening method that utilizes small molecules to probe candidate drug targets in the opportunistic fungal pathogen Candida albicans. This method is amenable to high-throughput automated screening and is based upon detection of changes in GFP levels of individually tagged target proteins. We first selected four GFP-tagged membrane-bound proteins associated with virulence or antifungal drug resistance in C. albicans. We demonstrated proof-of-principle that modulation of fluorescence intensity can be used to assay the expression of specific GFP-tagged target proteins to inhibitors (and inducers), and this change is measurable within the HyperCyt automated flow cytometry sampling system. Next, we generated a multiplex of differentially color-coded C. albicans strains bearing C-terminal GFP-tags of each gene encoding candidate drug targets incubated in the presence of small molecules from the Prestwick Chemical Library in 384-well microtiter plate format. Following incubation, cells were sampled through the HyperCyt system and modulation of protein levels, as indicated by changes in GFP-levels of each strain, was used to identify compounds of interest. The hit rate for both inducers and inhibitors identified in the primary screen did not exceed 1% of the total number of compounds in the small-molecule library that was probed, as would be expected from a robust target-specific, high-throughput screening campaign. Secondary assays for virulence characteristics based on null mutant strains were then used to further validate specificity. In all, this study presents a method for the identification and verification of new antifungal drugs targeted to fungal virulence proteins using C. albicans as a model fungal pathogen.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>25350399</pmid><doi>10.1371/journal.pone.0110354</doi><oa>free_for_read</oa></addata></record>
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subjects Antifungal agents
Antifungal Agents - pharmacology
Assaying
Biofilms
Biology and Life Sciences
Candida
Candida albicans
Candida albicans - drug effects
Candida albicans - genetics
Change detection
Cytometry
Drug resistance
Flow cytometry
Flow Cytometry - methods
Fluorescence
Fungi
Fungicides
Gene Expression
Genes, Reporter
High-throughput screening
High-Throughput Screening Assays
Humans
Hypothesis testing
Infections
Infectious diseases
Inhibitors
Laboratories
Laboratory equipment
Medical screening
Medicine and Health Sciences
Microbial Sensitivity Tests - methods
Modulation
Mortality
Multiplexing
Opportunist infection
Pathogenesis
Pathogens
Phenotype
Proteins
Recombinant Fusion Proteins - genetics
Reproducibility of Results
Research and Analysis Methods
Screening
Small Molecule Libraries
Target recognition
Virulence
Virulence - genetics
Yeast
title An automated high-throughput cell-based multiplexed flow cytometry assay to identify novel compounds to target Candida albicans virulence-related proteins
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