Aaron P. Mitchell scite author profile

Disruption of newly identified genes in the pathogen Candida albicans is a vital step in determination of gene function. Several gene disruption methods described previously employ long regions of homology flanking a selectable marker. Here, we describe disruption of C. albicans genes with PCR products that have 50 to 60 bp of homology to a genomic sequence on each end of a selectable marker. We used the method to disrupt two known genes,ARG5 and ADE2, and two sequences newly identified through the Candida genome project,HRM101 and ENX3. HRM101 and ENX3are homologous to genes in the conserved RIM101 (previously called RIM1) and PacC pathways ofSaccharomyces cerevisiae and Aspergillus nidulans. We show that three independenthrm101/hrm101 mutants and two independentenx3/enx3 mutants are defective in filamentation on Spider medium. These observations argue that HRM101 andENX3 sequences are indeed portions of genes and that the respective gene products have related functions.

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Alkaline Response Genes of Saccharomyces cerevisiaeand Their Relationship to the RIM101 Pathway

Lamb¹,

Xu²,

Diamond³

et al. 2001

Journal of Biological Chemistry

219

243

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Environmental pH exerts broad control over growth and differentiation, but the molecular responses to external pH changes are poorly understood. Here we have used open reading frame macroarray hybridization to identify alkaline response genes in Saccharomyces cerevisiae. Northern or lacZ fusion assays confirmed the alkaline induction of two ion pump genes (ENA1 and VMA4), several ion limitation genes (CTR3, FRE1, PHO11/12, and PHO84), a siderophore-iron transporter gene (ARN4/ENB1), two transcription factor genes (NRG2 and TIS11), and two predicted membrane protein genes (YAR068W/YHR214W and YOL154W). Unlike ENA1 and SHC1, these new alkaline response genes are not induced by high salinity. The known pH-responsive genes in other fungi depend on the conserved PacC/ Rim101p transcription factor, but induction of several of these new genes relied upon Rim101p-independent pH signaling mechanisms. Rim101p-dependent genes were also dependent on Rim13p, a protease required for Rim101p processing. The Rim101p-dependent gene VMA4 is required for growth in alkaline conditions, illustrating how Rim101p may control adaptation. Because Rim101p activates ion pump genes, we tested the role of RIM101 in ion homeostasis and found that RIM101 promotes resistance to elevated cation concentrations. Thus, gene expression surveys can reveal new functions for characterized transcription factors in addition to uncovering physiological responses to environmental conditions.

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ChIP-seq and In Vivo Transcriptome Analyses of the Aspergillus fumigatus SREBP SrbA Reveals a New Regulator of the Fungal Hypoxia Response and Virulence

et al. 2014

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The Aspergillus fumigatus sterol regulatory element binding protein (SREBP) SrbA belongs to the basic Helix-Loop-Helix (bHLH) family of transcription factors and is crucial for antifungal drug resistance and virulence. The latter phenotype is especially striking, as loss of SrbA results in complete loss of virulence in murine models of invasive pulmonary aspergillosis (IPA). How fungal SREBPs mediate fungal virulence is unknown, though it has been suggested that lack of growth in hypoxic conditions accounts for the attenuated virulence. To further understand the role of SrbA in fungal infection site pathobiology, chromatin immunoprecipitation followed by massively parallel DNA sequencing (ChIP-seq) was used to identify genes under direct SrbA transcriptional regulation in hypoxia. These results confirmed the direct regulation of ergosterol biosynthesis and iron uptake by SrbA in hypoxia and revealed new roles for SrbA in nitrate assimilation and heme biosynthesis. Moreover, functional characterization of an SrbA target gene with sequence similarity to SrbA identified a new transcriptional regulator of the fungal hypoxia response and virulence, SrbB. SrbB co-regulates genes involved in heme biosynthesis and demethylation of C4-sterols with SrbA in hypoxic conditions. However, SrbB also has regulatory functions independent of SrbA including regulation of carbohydrate metabolism. Loss of SrbB markedly attenuates A. fumigatus virulence, and loss of both SREBPs further reduces in vivo fungal growth. These data suggest that both A. fumigatus SREBPs are critical for hypoxia adaptation and virulence and reveal new insights into SREBPs' complex role in infection site adaptation and fungal virulence.

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Candida albicans biofilm–induced vesicles confer drug resistance through matrix biogenesis

et al. 2018

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Cells from all kingdoms of life produce extracellular vesicles (EVs). Their cargo is protected from the environment by the surrounding lipid bilayer. EVs from many organisms have been shown to function in cell–cell communication, relaying signals that impact metazoan development, microbial quorum sensing, and pathogenic host–microbe interactions. Here, we have investigated the production and functional activities of EVs in a surface-associated microbial community or biofilm of the fungal pathogen Candida albicans. Crowded communities like biofilms are a context in which EVs are likely to function. Biofilms are noteworthy because they are encased in an extracellular polymeric matrix and because biofilm cells exhibit extreme tolerance to antimicrobial compounds. We found that biofilm EVs are distinct from those produced by free-living planktonic cells and display strong parallels in composition to biofilm matrix material. The functions of biofilm EVs were delineated with a panel of mutants defective in orthologs of endosomal sorting complexes required for transport (ESCRT) subunits, which are required for normal EV production in diverse eukaryotes. Most ESCRT-defective mutations caused reduced biofilm EV production, reduced matrix polysaccharide levels, and greatly increased sensitivity to the antifungal drug fluconazole. Matrix accumulation and drug hypersensitivity of ESCRT mutants were reversed by addition of wild-type (WT) biofilm EVs. Vesicle complementation showed that biofilm EV function derives from specific cargo proteins. Our studies indicate that C. albicans biofilm EVs have a pivotal role in matrix production and biofilm drug resistance. Biofilm matrix synthesis is a community enterprise; prior studies of mixed cell biofilms have demonstrated extracellular complementation. Therefore, EVs function not only in cell–cell communication but also in the sharing of microbial community resources.

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Candida albicans Morphogenesis Programs Control the Balance between Gut Commensalism and Invasive Infection

Witchley

Penumetcha

Abon

et al. 2019

Cell Host & Microbe

165

199

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Graphical Abstract Highlights d Candida albicans colonizes the gastrointestinal tract as a mixture of yeast and hyphae d A C. albicans hyphal gene network that promotes virulence inhibits commensal fitness d Commensal fitness is inversely related to expression of hypha-specific virulence effectors d Hosts may tolerate yeasts while restricting pathogenic hyphae in the gut In Brief C. albicans is a fungal commensalpathogen of mammals. Witchley, Penumetcha et al. show that a filamentation program that promotes fungal virulence inhibits commensal fitness in the gut. This effect is mediated not by cell morphology, but by expression of hypha-specific virulence factors that appear to trigger negative selection. SUMMARYCandida albicans is a gut commensal and opportunistic pathogen. The transition between yeast and invasive hyphae is central to virulence but has unknown functions during commensal growth. In a mouse model of colonization, yeast and hyphae co-occur throughout the gastrointestinal tract. However, competitive infections of C. albicans homozygous gene disruption mutants revealed an unanticipated, inhibitory role for the yeast-to-hypha morphogenesis program on commensalism. We show that the transcription factor Ume6, a master regulator of filamentation, inhibits gut colonization, not by effects on cell shape, but by activating the expression of a hypha-specific pro-inflammatory secreted protease, Sap6, and a hyphal cell surface adhesin, Hyr1. Like a ume6 mutant, strains lacking SAP6 exhibit enhanced colonization fitness, whereas SAP6-overexpression strains are attenuated in the gut. These results reveal a tradeoff between fungal programs supporting commensalism and virulence in which selection against hypha-specific markers limits the disease-causing potential of this ubiquitous commensal-pathogen.Carlisle, P.L., and Kadosh, D. (2013). A genome-wide transcriptional analysis of morphology determination in Candida albicans. Mol. Biol. Cell 24, 246-260.

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In liver fibrosis, dendritic cells govern hepatic inflammation in mice via TNF-α

Connolly¹,

Bedrosian²,

Clair³

et al. 2009

J. Clin. Invest.

182

201

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Hepatic fibrosis occurs during most chronic liver diseases and is driven by inflammatory responses to injured tissue. Because DCs are central to modulating liver immunity, we postulated that altered DC function contributes to immunologic changes in hepatic fibrosis and affects the pathologic inflammatory milieu within the fibrotic liver. Using mouse models, we determined the contribution of DCs to altered hepatic immunity in fibrosis and investigated the role of DCs in modulating the inflammatory environment within the fibrotic liver. We found that DC depletion completely abrogated the elevated levels of many inflammatory mediators that are produced in the fibrotic liver. DCs represented approximately 25% of the fibrotic hepatic leukocytes and showed an elevated CD11b + CD8 -fraction, a lower B220 + plasmacytoid fraction, and increased expression of MHC II and CD40. Moreover, after liver injury, DCs gained a marked capacity to induce hepatic stellate cells, NK cells, and T cells to mediate inflammation, proliferation, and production of potent immune responses. The proinflammatory and immunogenic effects of fibrotic DCs were contingent on their production of TNF-α. Therefore, modulating DC function may be an attractive approach to experimental therapeutics in fibro-inflammatory liver disease.

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Function and dynamics of PKD2 in Chlamydomonas reinhardtii flagella

et al. 2007

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To analyze the function of ciliary polycystic kidney disease 2 (PKD2) and its relationship to intraflagellar transport (IFT), we cloned the gene encoding Chlamydomonas reinhardtii PKD2 (CrPKD2), a protein with the characteristics of PKD2 family members. Three forms of this protein (210, 120, and 90 kD) were detected in whole cells; the two smaller forms are cleavage products of the 210-kD protein and were the predominant forms in flagella. In cells expressing CrPKD2–GFP, about 10% of flagellar CrPKD2–GFP was observed moving in the flagellar membrane. When IFT was blocked, fluorescence recovery after photobleaching of flagellar CrPKD2–GFP was attenuated and CrPKD2 accumulated in the flagella. Flagellar CrPKD2 increased fourfold during gametogenesis, and several CrPKD2 RNA interference strains showed defects in flagella-dependent mating. These results suggest that the CrPKD2 cation channel is involved in coupling flagellar adhesion at the beginning of mating to the increase in flagellar calcium required for subsequent steps in mating.

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Dimorphism and virulence in Candida albicans

Mitchell

1998

Current Opinion in Microbiology

240

172

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Aaron P. Mitchell

Rapid Hypothesis Testing with Candida albicans through Gene Disruption with Short Homology Regions

Alkaline Response Genes of Saccharomyces cerevisiaeand Their Relationship to the RIM101 Pathway

ChIP-seq and In Vivo Transcriptome Analyses of the Aspergillus fumigatus SREBP SrbA Reveals a New Regulator of the Fungal Hypoxia Response and Virulence

Candida albicans biofilm–induced vesicles confer drug resistance through matrix biogenesis

Candida albicans Morphogenesis Programs Control the Balance between Gut Commensalism and Invasive Infection

In liver fibrosis, dendritic cells govern hepatic inflammation in mice via TNF-α

Function and dynamics of PKD2 in Chlamydomonas reinhardtii flagella

Dimorphism and virulence in Candida albicans

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