Your search keyword '"d'Enfert, Christophe"' showing total 373 results

351. Erratum: Generating genomic platforms to study Candida albicans pathogenesis.

Author

Legrand M, Bachellier-Bassi S, Lee KK, Chaudhari Y, Tournu H, Arbogast L, Boyer H, Chauvel M, Cabral V, Maufrais C, Nesseir A, Maslanka I, Permal E, Rossignol T, Walker LA, Zeidler U, Znaidi S, Schoeters F, Majgier C, Julien RA, Ma L, Tichit M, Bouchier C, Van Dijck P, Munro CA, and d'Enfert C

Published

2018

352. Methodologies for in vitro and in vivo evaluation of efficacy of antifungal and antibiofilm agents and surface coatings against fungal biofilms.

Author

Van Dijck P, Sjollema J, Cammue BP, Lagrou K, Berman J, d'Enfert C, Andes DR, Arendrup MC, Brakhage AA, Calderone R, Cantón E, Coenye T, Cos P, Cowen LE, Edgerton M, Espinel-Ingroff A, Filler SG, Ghannoum M, Gow NAR, Haas H, Jabra-Rizk MA, Johnson EM, Lockhart SR, Lopez-Ribot JL, Maertens J, Munro CA, Nett JE, Nobile CJ, Pfaller MA, Ramage G, Sanglard D, Sanguinetti M, Spriet I, Verweij PE, Warris A, Wauters J, Yeaman MR, Zaat SAJ, and Thevissen K

Abstract

Unlike superficial fungal infections of the skin and nails, which are the most common fungal diseases in humans, invasive fungal infections carry high morbidity and mortality, particularly those associated with biofilm formation on indwelling medical devices. Therapeutic management of these complex diseases is often complicated by the rise in resistance to the commonly used antifungal agents. Therefore, the availability of accurate susceptibility testing methods for determining antifungal resistance, as well as discovery of novel antifungal and antibiofilm agents, are key priorities in medical mycology research. To direct advancements in this field, here we present an overview of the methods currently available for determining (i) the susceptibility or resistance of fungal isolates or biofilms to antifungal or antibiofilm compounds and compound combinations; (ii) the in vivo efficacy of antifungal and antibiofilm compounds and compound combinations; and (iii) the in vitro and in vivo performance of anti-infective coatings and materials to prevent fungal biofilm-based infections., Competing Interests: Conflict of interest: The authors declare no conflict of interest.

Published

2018

353. Mechanisms Underlying the Delayed Activation of the Cap1 Transcription Factor in Candida albicans following Combinatorial Oxidative and Cationic Stress Important for Phagocytic Potency.

Author

Kos I, Patterson MJ, Znaidi S, Kaloriti D, da Silva Dantas A, Herrero-de-Dios CM, d'Enfert C, Brown AJ, and Quinn J

Subjects

Gene Expression Regulation, Fungal, Osmotic Pressure, Oxidative Stress, Protein Processing, Post-Translational, Basic-Leucine Zipper Transcription Factors metabolism, Candida albicans immunology, Candida albicans physiology, Cations toxicity, Cell Cycle Proteins metabolism, Fungal Proteins metabolism, Phagocytosis, Reactive Oxygen Species toxicity, Stress, Physiological

Abstract

Unlabelled: Following phagocytosis, microbes are exposed to an array of antimicrobial weapons that include reactive oxygen species (ROS) and cationic fluxes. This is significant as combinations of oxidative and cationic stresses are much more potent than the corresponding single stresses, triggering the synergistic killing of the fungal pathogenCandida albicansby "stress pathway interference." Previously we demonstrated that combinatorial oxidative plus cationic stress triggers a dramatic increase in intracellular ROS levels compared to oxidative stress alone. Here we show that activation of Cap1, the major regulator of antioxidant gene expression inC. albicans, is significantly delayed in response to combinatorial stress treatments and to high levels of H2O2 Cap1 is normally oxidized in response to H2O2; this masks the nuclear export sequence, resulting in the rapid nuclear accumulation of Cap1 and the induction of Cap1-dependent genes. Here we demonstrate that following exposure of cells to combinatorial stress or to high levels of H2O2, Cap1 becomes trapped in a partially oxidized form, Cap1(OX-1) Notably, Cap1-dependent gene expression is not induced when Cap1 is in this partially oxidized form. However, while Cap1(OX-1)readily accumulates in the nucleus and binds to target genes following high-H2O2stress, the nuclear accumulation of Cap1(OX-1)following combinatorial H2O2and NaCl stress is delayed due to a cationic stress-enhanced interaction with the Crm1 nuclear export factor. These findings define novel mechanisms that delay activation of the Cap1 transcription factor, thus preventing the rapid activation of the stress responses vital for the survival ofC. albicanswithin the host., Importance: Combinatorial stress-mediated synergistic killing represents a new unchartered area in the field of stress signaling. This phenomenon contrasts starkly with "stress cross-protection," where exposure to one stress protects against subsequent exposure to a different stress. Previously we demonstrated that the pathogenCandida albicansis acutely sensitive to combinations of cationic and oxidative stresses, because the induction of H2O2-responsive genes is blocked in the presence of cationic stress. We reveal that this is due to novel mechanisms that delay activation of the Cap1 AP-1-like transcription factor, the major regulator of the H2O2-induced regulon. Cap1 becomes trapped in a partially oxidized form following simultaneous exposure to oxidative and cationic stresses. In addition, cationic stress promotes the interaction of Cap1 with the Crm1 nuclear export factor, thus inhibiting its nuclear accumulation. These mechanisms probably explain the potency of neutrophils, which employ multiple stresses to kill fungal pathogens., (Copyright © 2016 Kos et al.)

Published

2016

354. The Toxicity of a Novel Antifungal Compound Is Modulated by Endoplasmic Reticulum-Associated Protein Degradation Components.

Author

Raj S, Krishnan K, Askew DS, Helynck O, Suzanne P, Lesnard A, Rault S, Zeidler U, d'Enfert C, Latgé JP, Munier-Lehmann H, and Saveanu C

Subjects

Animals, Aspergillus fumigatus genetics, Candida albicans drug effects, Cryptococcus neoformans drug effects, Drug Evaluation, Preclinical methods, Endoplasmic Reticulum drug effects, Endoplasmic Reticulum metabolism, Endoplasmic Reticulum-Associated Degradation genetics, HeLa Cells drug effects, Humans, Mice, Inbred Strains, Microbial Sensitivity Tests, Mutation, Saccharomyces cerevisiae drug effects, Saccharomyces cerevisiae genetics, Small Molecule Libraries pharmacology, Unfolded Protein Response drug effects, Antifungal Agents pharmacology, Antifungal Agents toxicity, Aspergillus fumigatus drug effects, Endoplasmic Reticulum-Associated Degradation drug effects

Abstract

In a search for new antifungal compounds, we screened a library of 4,454 chemicals for toxicity against the human fungal pathogen Aspergillus fumigatus. We identified sr7575, a molecule that inhibits growth of the evolutionary distant fungi A. fumigatus, Cryptococcus neoformans, Candida albicans, and Saccharomyces cerevisiae but lacks acute toxicity for mammalian cells. To gain insight into the mode of inhibition, sr7575 was screened against 4,885 S. cerevisiae mutants from the systematic collection of haploid deletion strains and 977 barcoded haploid DAmP (decreased abundance by mRNA perturbation) strains in which the function of essential genes was perturbed by the introduction of a drug resistance cassette downstream of the coding sequence region. Comparisons with previously published chemogenomic screens revealed that the set of mutants conferring sensitivity to sr7575 was strikingly narrow, affecting components of the endoplasmic reticulum-associated protein degradation (ERAD) stress response and the ER membrane protein complex (EMC). ERAD-deficient mutants were hypersensitive to sr7575 in both S. cerevisiae and A. fumigatus, indicating a conserved mechanism of growth inhibition between yeast and filamentous fungi. Although the unfolded protein response (UPR) is linked to ERAD regulation, sr7575 did not trigger the UPR in A. fumigatus and UPR mutants showed no enhanced sensitivity to the compound. The data from this chemogenomic analysis demonstrate that sr7575 exerts its antifungal activity by disrupting ER protein quality control in a manner that requires ERAD intervention but bypasses the need for the canonical UPR. ER protein quality control is thus a specific vulnerability of fungal organisms that might be exploited for antifungal drug development., (Copyright © 2016, American Society for Microbiology. All Rights Reserved.)

Published

2015

355. Candida albicans commensalism in the gastrointestinal tract.

Author

Neville BA, d'Enfert C, and Bougnoux ME

Subjects

Animals, Candida albicans immunology, Gastrointestinal Microbiome, Host-Pathogen Interactions, Humans, Microbial Interactions, Models, Animal, Candida albicans physiology, Carrier State microbiology, Gastrointestinal Tract microbiology, Symbiosis

Abstract

Candida albicans is a polymorphic yeast species that often forms part of the commensal gastrointestinal mycobiota of healthy humans. It is also an important opportunistic pathogen. A tripartite interaction involving C. albicans, the resident microbiota and host immunity maintains C. albicans in its commensal form. The influence of each of these factors on C. albicans carriage is considered herein, with particular focus on the mycobiota and the approaches used to study it, models of gastrointestinal colonization by C. albicans, the C. albicans genes and phenotypes that are necessary for commensalism and the host factors that influence C. albicans carriage., (© FEMS 2015. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2015

356. Using a Multi-Locus Microsatellite Typing method improved phylogenetic distribution of Candida albicans isolates but failed to demonstrate association of some genotype with the commensal or clinical origin of the isolates.

Author

L'ollivier C, Labruère C, Jebrane A, Bougnoux ME, d'Enfert C, Bonnin A, and Dalle F

Subjects

Candida albicans genetics, Candida albicans isolation & purification, Carrier State microbiology, Case-Control Studies, DNA, Fungal analysis, DNA, Fungal genetics, Genes, Fungal, Genetic Markers genetics, Humans, Microsatellite Repeats, Phylogeny, Candida albicans classification, Candidiasis microbiology, Mycological Typing Techniques methods

Abstract

The dimorphic yeast Candida albicans is a component of the normal microflora at the mucosal surfaces of healthy individuals. It possesses an array of phenotypic properties considered as virulence traits that contribute to pathogenicity of the yeast in immuno-compromised patients. We addressed the question of the pathogenicity of lineages of C. albicans with regard to their genotype in three series of C. albicans isolates (a series of commensal isolates collected in healthy individuals, a group of bloodstream isolates and a group of non-bloodstream clinical isolates) using a Multi-Locus Microsatellite Typing (MLMT) approach based on the analysis of the polymorphism of 11 microsatellite loci. The MLMT analysis of the three series, corresponding to 174 C. albicans isolates, gave a 100% typability to the method, with a DP index of 0.999. The UPGMA analysis showed that the isolates segregated in eight phylogenetic groups. Interestingly, the clustering was comparable when using NJ and MS-tree algorithms and a good concordance index of the clustering was observed with MLST. All in all our data strongly indicated MLMT as a reliable tool for DNA-typing studies in C. albicans. Isolates from healthy and non-healthy individuals segregated at the same proportions into the eight phylogenetic groups, suggesting that isolates of different origin share the same overall pathogenicity. Surprisingly allelic frequencies at the HIS3 microsatellite differed significantly in commensal isolates (group A) from pooled groups B and C (clinical isolates), raising the possibility that some individual alleles at the HIS3 microsatellite may be associated with distinct pathogenic profiles in C. albicans., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

357. Modular gene over-expression strategies for Candida albicans.

Author

Cabral V, Chauvel M, Firon A, Legrand M, Nesseir A, Bachellier-Bassi S, Chaudhari Y, Munro CA, and d'Enfert C

Subjects

Genome, Fungal genetics, Genome-Wide Association Study, Open Reading Frames genetics, Candida albicans genetics, Gene Expression Regulation, Fungal genetics, Genomics methods

Abstract

Over-expression is a valid functional genomics approach to characterise genes of unknown function on a genome-wide scale. Strains are engineered to over-express a specific gene and the resulting gain-of-function phenotype assessed. Here, we describe the strategy we are adopting to synthesise a Candida albicans ORFeome collection and the options available to create over-expressing strains from this collection.

Published

2012

358. A luciferase reporter for gene expression studies and dynamic imaging of superficial Candida albicans infections.

Author

Pietrella D, Enjalbert B, Zeidler U, Znaidi S, Rachini A, Vecchiarelli A, and d'Enfert C

Subjects

Animals, Candidiasis, Cutaneous enzymology, Candidiasis, Cutaneous microbiology, Female, Host-Pathogen Interactions, Luciferases metabolism, Mice, Vagina metabolism, Vagina microbiology, Candida albicans pathogenicity, Candidiasis, Cutaneous genetics, Gene Expression Profiling methods, Genes, Reporter genetics, Luciferases genetics, Luminescent Measurements methods

Abstract

Real-time imaging of fungal infections is becoming integral to the study of host-pathogen interactions, as it allows monitoring of the spatial and temporal progression of pathogen growth or of the host response in a single animal as well as reducing the number of animals used to obtain significant data. We present different applications of a novel luciferase reporter gene constructed from the coding sequences of the Candida albicans PGA59 gene, encoding a GPI-linked cell wall protein, and the Gaussia princeps luciferase gene. Upon addition of the coelenterazine substrate, light produced by the surface-exposed luciferase can be used to quantify gene expression from a variety of C. albicans promoters as well as monitoring cutaneous, subcutaneous, and vaginal infections.

Published

2012

359. Biofilm formation studies in microtiter plate format.

Author

Riera M, Moreno-Ruiz E, Goyard S, d'Enfert C, and Janbon G

Subjects

Candida isolation & purification, Cell Culture Techniques methods, Cell Proliferation, Colorimetry, Fluoresceins, Microchemistry instrumentation, Microscopy, Biofilms growth & development, Candida growth & development, Cell Culture Techniques instrumentation

Abstract

Although Candida biofilms have been clearly identified as playing an increasingly important role in human disease, their biology and the reason for their poor susceptibility to antifungal agents remain largely unknown. Over recent years, various models have been developed in order to better characterize Candida biofilms. Here, we describe a number of rapid, inexpensive microtiter-format techniques and strategies which can be used for large-scale screening procedures aimed at identifying genes involved in Candida biofilm formation and/or potential antifungal agents with activity against pathogen cells growing under these conditions. The procedures could also be easily adapted for studying biofilm structures with a range of microscopy techniques.

Published

2012

360. Hidden killers: persistence of opportunistic fungal pathogens in the human host.

Author

d'Enfert C

Subjects

Host-Pathogen Interactions, Humans, Immunocompromised Host, Carrier State microbiology, Fungi immunology, Fungi physiology, Mycoses microbiology, Opportunistic Infections microbiology

Abstract

Opportunistic fungal pathogens are responsible for life-threatening systemic infections in immunocompromized individuals. Yet, they are also able to persist in immunocompetent individuals through different strategies. This review explores recent advances in our understanding of several survival strategies: the establishment of a commensal relationship between yeast of the genus Candida and the host; the formation of biofilms that allow microbes in these communities to be protected from chemical and cellular attacks; and the persistence of airborne pathogens within macrophages following primary infection. While research has concentrated on deciphering virulence factors of pathogenic fungi, additional understanding of how fungal pathogens persist in healthy hosts might help us design new strategies to prevent the transition from harmless interactions to devastating infections.

Published

2009

361. Sequencing of Aspergillus nidulans and comparative analysis with A. fumigatus and A. oryzae.

Author

Galagan JE, Calvo SE, Cuomo C, Ma LJ, Wortman JR, Batzoglou S, Lee SI, Baştürkmen M, Spevak CC, Clutterbuck J, Kapitonov V, Jurka J, Scazzocchio C, Farman M, Butler J, Purcell S, Harris S, Braus GH, Draht O, Busch S, D'Enfert C, Bouchier C, Goldman GH, Bell-Pedersen D, Griffiths-Jones S, Doonan JH, Yu J, Vienken K, Pain A, Freitag M, Selker EU, Archer DB, Peñalva MA, Oakley BR, Momany M, Tanaka T, Kumagai T, Asai K, Machida M, Nierman WC, Denning DW, Caddick M, Hynes M, Paoletti M, Fischer R, Miller B, Dyer P, Sachs MS, Osmani SA, and Birren BW

Subjects

Aspergillus fumigatus physiology, Aspergillus nidulans physiology, Aspergillus oryzae physiology, Base Sequence, Consensus Sequence genetics, Conserved Sequence genetics, Evolution, Molecular, Genes, Mating Type, Fungal genetics, Humans, Molecular Sequence Data, Open Reading Frames genetics, Phylogeny, Proteome genetics, Regulatory Sequences, Nucleic Acid genetics, Sequence Analysis, DNA, Synteny genetics, Aspergillus fumigatus genetics, Aspergillus nidulans genetics, Aspergillus oryzae genetics, Genome, Fungal genetics, Genomics

Abstract

The aspergilli comprise a diverse group of filamentous fungi spanning over 200 million years of evolution. Here we report the genome sequence of the model organism Aspergillus nidulans, and a comparative study with Aspergillus fumigatus, a serious human pathogen, and Aspergillus oryzae, used in the production of sake, miso and soy sauce. Our analysis of genome structure provided a quantitative evaluation of forces driving long-term eukaryotic genome evolution. It also led to an experimentally validated model of mating-type locus evolution, suggesting the potential for sexual reproduction in A. fumigatus and A. oryzae. Our analysis of sequence conservation revealed over 5,000 non-coding regions actively conserved across all three species. Within these regions, we identified potential functional elements including a previously uncharacterized TPP riboswitch and motifs suggesting regulation in filamentous fungi by Puf family genes. We further obtained comparative and experimental evidence indicating widespread translational regulation by upstream open reading frames. These results enhance our understanding of these widely studied fungi as well as provide new insight into eukaryotic genome evolution and gene regulation.

Published

2005

362. A human-curated annotation of the Candida albicans genome.

Author

Braun BR, van Het Hoog M, d'Enfert C, Martchenko M, Dungan J, Kuo A, Inglis DO, Uhl MA, Hogues H, Berriman M, Lorenz M, Levitin A, Oberholzer U, Bachewich C, Harcus D, Marcil A, Dignard D, Iouk T, Zito R, Frangeul L, Tekaia F, Rutherford K, Wang E, Munro CA, Bates S, Gow NA, Hoyer LL, Köhler G, Morschhäuser J, Newport G, Znaidi S, Raymond M, Turcotte B, Sherlock G, Costanzo M, Ihmels J, Berman J, Sanglard D, Agabian N, Mitchell AP, Johnson AD, Whiteway M, and Nantel A

Abstract

Recent sequencing and assembly of the genome for the fungal pathogen Candida albicans used simple automated procedures for the identification of putative genes. We have reviewed the entire assembly, both by hand and with additional bioinformatic resources, to accurately map and describe 6,354 genes and to identify 246 genes whose original database entries contained sequencing errors (or possibly mutations) that affect their reading frame. Comparison with other fungal genomes permitted the identification of numerous fungus-specific genes that might be targeted for antifungal therapy. We also observed that, compared to other fungi, the protein-coding sequences in the C. albicans genome are especially rich in short sequence repeats. Finally, our improved annotation permitted a detailed analysis of several multigene families, and comparative genomic studies showed that C. albicans has a far greater catabolic range, encoding respiratory Complex 1, several novel oxidoreductases and ketone body degrading enzymes, malonyl-CoA and enoyl-CoA carriers, several novel amino acid degrading enzymes, a variety of secreted catabolic lipases and proteases, and numerous transporters to assimilate the resulting nutrients. The results of these efforts will ensure that the Candida research community has uniform and comprehensive genomic information for medical research as well as for future diagnostic and therapeutic applications., Competing Interests: Competing interests. BRB is an employee of both Incyte and University of California at San Francisco (UCSF). Incyte played no role in this work, and the resources used were all from UCSF.

Published

2005

363. The Yak1p kinase controls expression of adhesins and biofilm formation in Candida glabrata in a Sir4p-dependent pathway.

Author

Iraqui I, Garcia-Sanchez S, Aubert S, Dromer F, Ghigo JM, d'Enfert C, and Janbon G

Subjects

Biofilms, Candida glabrata genetics, Candida glabrata growth & development, Candida glabrata ultrastructure, Cell Adhesion, Fungal Proteins genetics, Gene Silencing, Genotype, Kinetics, Protein Kinases genetics, Telomere genetics, Transcription, Genetic, Candida glabrata physiology, Fungal Proteins metabolism, Protein Kinases metabolism

Abstract

Biofilm is the predominant type of microbial development in natural environments, and potentially represents a major form of resistance or source of recurrence during host infection. Although a large number of studies have focussed on the genetics of bacterial biofilm formation, very little is known about the genes involved in this type of growth in fungi. A genetic screen for Candida glabrata Biofilm mutants was performed using a 96-well plate model of biofilm formation. Study of the isolated mutant strains allowed the identification of four genes involved in biofilm formation (RIF1, SIR4, EPA6 and YAK1). Epa6p is a newly identified adhesin required for biofilm formation in this pathogenic yeast. EPA6 and its close paralogue EPA7 are located in subtelomeric regions and their transcription is regulated by Sir4p and Rif1p, two proteins involved in subtelomeric silencing. Biofilm growth conditions induce the transcription of EPA6 and EPA7: this is dependent on the presence of an intact subtelomeric silencing machinery and is independent of the Mpk1p signalling pathway. Finally, the kinase Yak1p is required for expression of both adhesin genes and acts through a subtelomeric silencing machinery-dependent pathway.

Published

2005

364. Multilocus sequence typing of Candida albicans: strategies, data exchange and applications.

Author

Bougnoux ME, Aanensen DM, Morand S, Théraud M, Spratt BG, and d'Enfert C

Subjects

Animals, Base Sequence, Candidiasis prevention & control, Databases, Factual, Humans, Phylogeny, Software, Candida albicans classification, Candida albicans genetics, Mycological Typing Techniques

Abstract

Multilocus sequence typing of Candida albicans: strategies, data exchange and applications. Bougnoux, M.-E., Aanensen, D.M., Morand, S., Théraud, M., Spratt, B.G., and d'Enfert, C. Infection, Genetics and Evolution. C. albicans is a commensal of humans and animals but is also the main fungal pathogen of humans, ranking fourth among the microorganisms responsible for hospital-acquired bloodstream infections. Information on the genetic diversity and dynamics of the C. albicans population and on the characteristics of C. albicans strains causing invasive infections in immunocompromised patients is important in order to adapt prevention policies. Important results in this field have been obtained using the Ca3 fingerprinting probe. Recently, multilocus sequence typing (MLST) based on the sequencing of 6-8 selected house-keeping genes and identification of polymorphic nucleotide sites has been introduced for the characterization of C. albicans isolates. Combination of the alleles at the different loci results in unique diploid sequence types (DSTs) that can be used to discriminate strains. MLST has now been successfully applied to study the epidemiology of C. albicans in the hospital as well as the diversity of C. albicans isolates obtained from diverse ecological niches including human and animal hosts. Furthermore, MLST data for C. albicans are available in a public database (http://calbicans.mlst.net) that provides a new resource to evaluate the worldwide diversity of C. albicans and the relationships of isolates identified at various locations.

Published

2004

365. Candida albicans biofilms: a developmental state associated with specific and stable gene expression patterns.

Author

García-Sánchez S, Aubert S, Iraqui I, Janbon G, Ghigo JM, and d'Enfert C

Subjects

Amino Acids, Sulfur genetics, Amino Acids, Sulfur metabolism, Candida albicans genetics, Candida albicans metabolism, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Fungal Proteins genetics, Fungal Proteins metabolism, Gene Expression, Multigene Family, Mycelium genetics, Mycelium growth & development, Oligonucleotide Array Sequence Analysis, Plankton genetics, Plankton growth & development, Plankton metabolism, Protein Kinases genetics, Protein Kinases metabolism, RNA, Messenger analysis, Saccharomyces cerevisiae Proteins genetics, Saccharomyces cerevisiae Proteins metabolism, Transcription Factors genetics, Transcription Factors metabolism, Biofilms growth & development, Candida albicans physiology

Abstract

Like many bacteria, yeast species can form biofilms on several surfaces. Candida albicans colonizes the surfaces of catheters, prostheses, and epithelia, forming biofilms that are extremely resistant to antifungal drugs. We have used transcript profiling to investigate the specific properties of C. albicans biofilms. Biofilm and planktonic cultures produced under different conditions of nutrient flow, aerobiosis, or glucose concentration were compared by overall gene expression correlation. Correlation was much higher between biofilms than planktonic populations irrespective of the growth conditions, indicating that biofilm populations formed in different environments display very similar and specific transcript profiles. A first cluster of 325 differentially expressed genes was identified. In agreement with the overrepresentation of amino acid biosynthesis genes in this cluster, Gcn4p, a regulator of amino acid metabolism, was shown to be required for normal biofilm growth. To identify biofilm-related genes that are independent of mycelial development, we studied the transcriptome of biofilms produced by a wild-type, hypha-producing strain and a cph1/cph1 efg1/efg1 strain defective for hypha production. This analysis identified a cluster of 317 genes expressed independently of hypha formation, whereas 86 genes were dependent on mycelial development. Both sets revealed the activation of the sulfur-amino acid biosynthesis pathway as a feature of C. albicans biofilms.

Published

2004

366. Glycerol dehydrogenase, encoded by gldB is essential for osmotolerance in Aspergillus nidulans.

Author

de Vries RP, Flitter SJ, van de Vondervoort PJ, Chaveroche MK, Fontaine T, Fillinger S, Ruijter GJ, d'Enfert C, and Visser J

Subjects

Aspergillus nidulans genetics, Aspergillus nidulans physiology, Cell Division, Gene Silencing, Glucose metabolism, Glycerol metabolism, Molecular Sequence Data, NADP metabolism, Osmolar Concentration, Sodium Chloride metabolism, Sugar Alcohols metabolism, Aspergillus nidulans enzymology, Fungal Proteins genetics, Fungal Proteins metabolism, Sugar Alcohol Dehydrogenases genetics, Sugar Alcohol Dehydrogenases metabolism

Abstract

We have characterized the Aspergillus nidulans gldB gene encoding a NADP+-dependent glycerol dehydrogenase. A basal expression level was observed for gldB, which increased significantly under conditions of hyper-osmotic shock (1 M NaCl). Growth of strains in which gldB was disrupted was severely reduced on plates containing 1% glucose and 1 M NaCl, but these strains were able to grow on plates containing 1 M NaCl and 1% glycerol, arabitol, mannitol or erythritol. Uptake of these polyols compensated for the inability of the gldB disruptants to produce glycerol. Presence of 1% glucose in these plates prevented growth restoration by all the polyols tested with the exemption of glycerol, indicating that uptake of mannitol, arabitol and erythritol is subject to glucose repression, whereas uptake of glycerol is significantly less or not repressed. No intracellular glycerol dehydrogenase activity could be detected in the gldB disruption strains. Intracellular glycerol levels in these strains were strongly decreased compared to wild type, whereas intracellular mannitol, erythritol and arabitol levels were increased. Conidia of the gldB disruption strain did not accumulate glycerol upon germination in glucose media with or without 1 M NaCl and germ tube emergence was significantly delayed in this strain in the presence of 1 M NaCl in comparison to the wild type. These data indicate that gldB is essential for osmotolerance in A. nidulans and that the pathways for glycerol biosynthesis under osmotic stress differ between yeast and filamentous fungi.

Published

2003

367. Identification of essential genes in the human fungal pathogen Aspergillus fumigatus by transposon mutagenesis.

Author

Firon A, Villalba F, Beffa R, and D'Enfert C

Subjects

Antifungal Agents pharmacology, Aspergillus fumigatus drug effects, Base Sequence genetics, Chromosome Mapping methods, Fungal Proteins genetics, Gene Targeting, Humans, Mutation genetics, Sequence Homology, Nucleic Acid, Aspergillus fumigatus genetics, Aspergillus fumigatus growth & development, DNA Transposable Elements genetics, Gene Expression Regulation, Fungal genetics, Genome, Fungal, Mutagenesis, Insertional genetics

Abstract

The opportunistic pathogen Aspergillus fumigatus is the most frequent cause of deadly airborne fungal infections in developed countries. In order to identify novel antifungal-drug targets, we investigated the genome of A. fumigatus for genes that are necessary for efficient fungal growth. An artificial A. fumigatus diploid strain with one copy of an engineered impala160 transposon from Fusarium oxysporum integrated into its genome was used to generate a library of diploid strains by random in vivo transposon mutagenesis. Among 2,386 heterozygous diploid strains screened by parasexual genetics, 1.2% had a copy of the transposable element integrated into a locus essential for A. fumigatus growth. Comparison of genomic sequences flanking impala160 in these mutants with that of the genome of A. fumigatus allowed the characterization of 20 previously uncharacterized A. fumigatus genes. Among these, homologues of genes essential for Saccharomyces cerevisiae growth have been identified, as well as genes that do not have homologues in other fungal species. These results confirm that heterologous transposition using the transposable element impala is a powerful tool for functional genomics in ascomycota, and they pave the way for defining the complete set of essential genes in A. fumigatus, the first step toward target-based development of new antifungal drugs.

Published

2003

368. Stage-specific gene expression of Candida albicans in human blood.

Author

Fradin C, Kretschmar M, Nichterlein T, Gaillardin C, d'Enfert C, and Hube B

Subjects

Adaptation, Physiological genetics, Animals, Antioxidants metabolism, Candida albicans drug effects, Candida albicans metabolism, Candida albicans pathogenicity, Candidiasis blood, Cluster Analysis, DNA, Complementary, Enzymes genetics, Enzymes metabolism, Fermentation, Fungal Proteins genetics, Fungal Proteins metabolism, Glycolysis, Glyoxylates metabolism, Heparin pharmacology, Humans, Hyphae genetics, Leukocytes microbiology, Mice, Molecular Diagnostic Techniques, Oligonucleotide Array Sequence Analysis, Oxidative Stress, Blood microbiology, Candida albicans genetics, Candidiasis microbiology, Gene Expression Regulation, Fungal drug effects

Abstract

The pathogenic fungus Candida albicans commonly causes mucosal surface infections. In immunocompromised patients, C. albicans may penetrate into deeper tissue, enter the bloodstream and disseminate within the host causing life-threatening systemic infections. In order to elucidate how C. albicans responds to the challenge of a blood environment, we analysed the transcription profile of C. albicans cells exposed to human blood using genomic arrays and a cDNA subtraction protocol. By combining data obtained with these two methods, we were able to identify unique sets of different fungal genes specifically expressed at different stages of this model that mimics bloodstream infections. By removing host cells and incubation in plasma, we were also able to identify several genes in which the expression level was significantly influenced by the presence of these cells. Differentially expressed genes included those that are involved in the general stress response, antioxidative response, glyoxylate cycle as well as putative virulence attributes. These data point to possible mechanisms by which C. albicans ensures survival in the hostile environment of the blood and how the fungus may escape the bloodstream as an essential step in its systemic dissemination.

Published

2003

369. Identifying essential genes in fungal pathogens of humans.

Author

Firon A and d'Enfert C

Subjects

Drug Design, Fungi drug effects, Fungi growth & development, Genes, Essential, Humans, Models, Genetic, Mutagenesis, Insertional, RNA Interference, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae growth & development, Antifungal Agents therapeutic use, Fungi genetics, Genes, Fungal

Abstract

Opportunistic fungal pathogens are an important cause of fatal invasive diseases and one of the many threats facing immunocompromised patients. Because of the limitations of the antifungal therapies currently available such as their toxicity, their narrow spectrum and the emergence of resistant pathogens, there is a significant demand for a broader antifungal arsenal. The characterization of genes essential for fungal growth will be an important step in the identification and development of novel antifungal drugs. Original strategies and new technologies including in vivo or in vitro transposon mutagenesis and post-transcriptional gene silencing are being developed for genome-scale identification of essential genes in fungal species that are pathogenic to humans.

Published

2002

370. Characterization of essential genes by parasexual genetics in the human fungal pathogen Aspergillus fumigatus: impact of genomic rearrangements associated with electroporation of DNA.

Author

Firon A, Beauvais A, Latgé JP, Couvé E, Grosjean-Cournoyer MC, and D'Enfert C

Subjects

Amino Acid Sequence, Aspergillus fumigatus pathogenicity, Base Sequence, Conserved Sequence, DNA Primers, Diploidy, Electroporation, Fungal Proteins chemistry, Fungal Proteins metabolism, Gene Rearrangement, Humans, Molecular Sequence Data, Sequence Alignment, Sequence Homology, Amino Acid, Virulence genetics, Aspergillus fumigatus genetics, DNA, Fungal genetics, Fungal Proteins genetics, Genes, Essential

Abstract

We have evaluated the usefulness of parasexual genetics in the identification of genes essential for the growth of the human fungal pathogen Aspergillus fumigatus. First, essentiality of the A. fumigatus AfFKS1 gene, encoding the catalytic subunit of the beta-(1,3)-glucan synthase complex, was assessed by inactivating one allele of AfFKS1 in a diploid strain of A. fumigatus obtained using adequate selectable markers in spore color and nitrate utilization pathways and by performing haploidization under conditions that select for the occurrence of the disrupted allele. Haploid progeny could not be obtained, demonstrating that AfFKS1 and, hence, beta-(1,3)-glucan synthesis are essential in A. fumigatus. Second, random heterozygous insertional mutants were generated by electroporation of diploid conidia with a heterologous plasmid. A total of 4.5% of the transformants failed to produce haploid progeny on selective medium. Genomic analysis of these heterozygous diploids led in particular to the identification of an essential A. fumigatus gene encoding an SMC-like protein resembling one in Schizosacccharomyces pombe involved in chromosome condensation and cohesion. However, significant plasmid and genomic DNA rearrangements were observed at many of the identified genomic loci where plasmid integration had occurred, thus suggesting that the use of electroporation to build libraries of A. fumigatus insertional mutants has relatively limited value and cannot be used in an exhaustive search of essential genes.

Published

2002

371. cAMP and ras signalling independently control spore germination in the filamentous fungus Aspergillus nidulans.

Author

Fillinger S, Chaveroche MK, Shimizu K, Keller N, and d'Enfert C

Subjects

Adenylyl Cyclases metabolism, Amino Acid Sequence, Aspergillus nidulans enzymology, Aspergillus nidulans genetics, Fungal Proteins chemistry, Fungal Proteins genetics, Fungal Proteins metabolism, Gene Expression Regulation, Fungal, Genes, Fungal genetics, Models, Biological, Molecular Sequence Data, Mutation genetics, Sequence Homology, Amino Acid, Spores, Fungal enzymology, Spores, Fungal genetics, Trehalose metabolism, Aspergillus nidulans growth & development, Aspergillus nidulans metabolism, Cyclic AMP metabolism, Signal Transduction, Spores, Fungal growth & development, Spores, Fungal metabolism, ras Proteins metabolism

Abstract

The role of cAMP signalling during germination of asexual spores (conidia) of the filamentous fungus Aspergillus nidulans was investigated. A. nidulans strains defective for adenylate cyclase (CyaA) or for the functionally overlapping cAMP-dependent protein kinase (PkaA) and newly characterized SchA protein kinase, homologous to Saccharomyces cerevisiae Sch9, show altered trehalose mobilization and kinetics of germ tube outgrowth, in addition to other defects in colony formation. cAMP-dependent trehalose breakdown is triggered by the addition of a carbon source independently of further catabolism, suggesting that cAMP signalling controls early events of conidial germination in response to carbon source sensing. Additional results suggest that cAMP has targets other than PkaA and SchA and that PkaA retains activity in the absence of cAMP. Conversely, PkaA regulates cAMP levels in A. nidulans because these are elevated by approximately 250-fold in a strain that lacks PkaA. Furthermore, analysis of mutant strains impaired in both adenylate cyclase and RasA GTPase previously implicated in the control of A. nidulans spore germination suggested that RasA and cAMP signalling proceed independently during germination in A. nidulans.

Published

2002

372. Trehalose is required for the acquisition of tolerance to a variety of stresses in the filamentous fungus Aspergillus nidulans.

Author

Fillinger S, Chaveroche MK, van Dijck P, de Vries R, Ruijter G, Thevelein J, and d'Enfert C

Subjects

Adaptation, Physiological, Amino Acid Sequence, Aspergillus nidulans genetics, Culture Media, Gene Deletion, Gene Expression Regulation, Fungal, Glucosyltransferases chemistry, Molecular Sequence Data, Sequence Analysis, DNA, Spores, Fungal physiology, Aspergillus nidulans physiology, Glucosyltransferases genetics, Glucosyltransferases metabolism, Hot Temperature, Oxidative Stress, Trehalose metabolism

Abstract

Trehalose is a non-reducing disaccharide found at high concentrations in Aspergillus nidulans conidia and rapidly degraded upon induction of conidial germination. Furthermore, trehalose is accumulated in response to a heat shock or to an oxidative shock. The authors have characterized the A. nidulans tpsA gene encoding trehalose-6-phosphate synthase, which catalyses the first step in trehalose biosynthesis. Expression of tpsA in a Saccharomyces cerevisiae tps1 mutant revealed that the tpsA gene product is a functional equivalent of the yeast Tps1 trehalose-6-phosphate synthase. The A. nidulans tpsA-null mutant does not produce trehalose during conidiation or in response to various stress conditions. While germlings of the tpsA mutant show an increased sensitivity to moderate stress conditions (growth at 45 degrees C or in the presence of 2 mM H(2)O(2)), they display a response to severe stress (60 min at 50 degrees C or in the presence of 100 mM H(2)O(2)) similar to that of wild-type germlings. Furthermore, conidia of the tpsA mutant show a rapid loss of viability upon storage. These results are consistent with a role of trehalose in the acquisition of stress tolerance. Inactivation of the tpsA gene also results in increased steady-state levels of sugar phosphates but does not prevent growth on rapidly metabolizable carbon sources (glucose, fructose) as seen in Saccharomyces cerevisiae. This suggests that trehalose 6-phosphate is a physiological inhibitor of hexokinase but that this control is not essential for proper glycolytic flux in A. nidulans. Interestingly, tpsA transcription is not induced in response to heat shock or during conidiation, indicating that trehalose accumulation is probably due to a post-translational activation process of the trehalose 6-phosphate synthase.

Published

2001

373. The Aspergillus fumigatus mepB gene encodes an 82 kDa intracellular metalloproteinase structurally related to mammalian thimet oligopeptidases.

Author

Ibrahim-Granet O and D'Enfert C

Subjects

Amino Acid Sequence, Animals, Cloning, Molecular, Mammals, Metalloendopeptidases metabolism, Molecular Sequence Data, Mutation, Sequence Alignment, Sequence Analysis, Aspergillus fumigatus genetics, Genes, Fungal, Metalloendopeptidases genetics

Abstract

Aspergillus fumigatus produces an 82 kDa intracellular metalloproteinase that hydrolyses the Pz-peptide, 4-phenylazobenzyloxycarbonyl-Pro-Leu-Gly-Pro-Arg, a typical substrate of members of the thimet oligopeptidase family which is ubiquitously distributed across animal species. The A. fumigatus mepB gene encoding this 82 kDa metalloproteinase was cloned and sequenced. Analysis of the deduced amino acid sequence of mepB showed that the MepB protein is a cytosolic zinc metalloproteinase of the thimet oligopeptidase family (M3) and as such is probably involved in the intracellular degradation of small peptides. An A. fumigatus mutant that lacks the MepB Pz-peptidolytic activity was constructed by gene disruption at the mepB locus. Analysis of this mutant did not reveal any detectable phenotype.

Published

1997