Specificity of the osmotic stress response in Candida albicans highlighted by quantitative proteomics.

Stress adaptation is critical for the survival of microbes in dynamic environments, and in particular, for fungal pathogens to survive in and colonise host niches. Proteomic analyses have the potential to significantly enhance our understanding of these adaptive responses by providing insight into post-transcriptional regulatory mechanisms that contribute to the outputs, as well as testing presumptions about the regulation of protein levels based on transcript profiling. Here, we used label-free, quantitative mass spectrometry to re-examine the response of the major fungal pathogen of humans, Candida albicans, to osmotic stress.

Integrative Model of Oxidative Stress Adaptation in the Fungal Pathogen Candida albicans.

The major fungal pathogen of humans, Candida albicans, mounts robust responses to oxidative stress that are critical for its virulence. These responses counteract the reactive oxygen species (ROS) that are generated by host immune cells in an attempt to kill the invading fungus. Knowledge of the dynamical processes that instigate C.

Stress adaptation in a pathogenic fungus.

Candida albicans is a major fungal pathogen of humans. This yeast is carried by many individuals as a harmless commensal, but when immune defences are perturbed it causes mucosal infections (thrush). Additionally, when the immune system becomes severely compromised, C.

Gross karyotypic and phenotypic alterations among different progenies of the Candida glabrata CBS138/ATCC2001 reference strain.

Genomic plasticity is a mechanism for adaptation to environmental cues such as host responses and antifungal drug pressure in many fungi including the human pathogenic yeast Candida glabrata. In this study we evaluated the phenotypic and genotypic stability of the world-wide used C. glabrata reference strain CBS138/ATCC2001 under laboratory conditions.

Gene expression in fungi.

This contribution is based on the four presentations made at the Special Interest Group (SIG) meeting titled Gene Expression in Fungi held during IMC9 in Edinburgh. This overview is independent from other articles published or that will be published by each speaker. In the SIG meeting, basic principles of in vivo animal models for virulence studies were discussed.

A systems biology analysis of long and short-term memories of osmotic stress adaptation in fungi.

Background: Saccharomyces cerevisiae senses hyperosmotic conditions via the HOG signaling network that activates the stress-activated protein kinase, Hog1, and modulates metabolic fluxes and gene expression to generate appropriate adaptive responses. The integral control mechanism by which Hog1 modulates glycerol production remains uncharacterized. An additional Hog1-independent mechanism retains intracellular glycerol for adaptation.

Elevated cell wall chitin in Candida albicans confers echinocandin resistance in vivo.

Candida albicans cells with increased cell wall chitin have reduced echinocandin susceptibility in vitro. The aim of this study was to investigate whether C. albicans cells with elevated chitin levels have reduced echinocandin susceptibility in vivo.

Genetic dissection of azole resistance mechanisms in Candida albicans and their validation in a mouse model of disseminated infection.

Principal mechanisms of resistance to azole antifungals include the upregulation of multidrug transporters and the modification of the target enzyme, a cytochrome P450 (Erg11) involved in the 14alpha-demethylation of ergosterol. These mechanisms are often combined in azole-resistant Candida albicans isolates recovered from patients. However, the precise contributions of individual mechanisms to C.

Mixed Candida albicans strain populations in colonized and infected mucosal tissues.

Multilocus sequence typing of six Candida albicans colonies from primary isolation plates revealed instances of colony-to-colony microvariation and carriage of two strain types in single oropharyngeal and vaginal samples. Higher rates of colony variation in commensal samples suggest selection of types from mixed populations either in the shift to pathogenicity or the response to antifungal treatment.

Multilocus sequence typing of Candida albicans isolates from animals.

Multilocus sequencing strain types of a panel of 43 Candida albicans isolates from animals, including mammals and avian species, were compared with strain types for human isolates. The clade distribution of the animal isolates was significantly different from that of the human isolates, in both a comparison involving a total of 1580 isolates from multiple geographical sources and a comparison restricted to 675 human isolates from the same geographical regions as the animal isolates. A nearest-neighbour analysis involving the 43 animal isolates and 67 human isolates, randomly selected to give a proportionate distribution of geographical sources, showed a strong statistical trend towards genetic selection of different C.

Mitochondrial haplotypes and recombination in Candida albicans.

Candida albicans is a common commensal and opportunistic pathogenic fungus. Although it normally reproduces clonally, several lines of evidence exist for genetic recombination and some form of sexual reproduction. We have sequenced seven regions of its mitochondrial genome in 36 strains and constructed haplotypes for the 66 polymorphic sites, which include single-nucleotide polymorphisms and insertion/deletions.

Multilocus sequence typing confirms synonymy but highlights differences between Candida albicans and Candida stellatoidea.

We used multi-locus sequence typing (MLST) to investigate 35 yeast isolates representing the two genome-sequenced strains plus the type strain of Candida albicans, four isolates originally identified as Candida stellatoidea type I and 28 representing type strains of other species now regarded as synonymous with C. albicans. DNA from all 32 C.

Molecular phylogenetic analysis of Candida tropicalis isolates by multi-locus sequence typing.

Multi-locus sequencing data for 242 different isolates of Candida tropicalis generated a dendrogram showing 235 strains assigned to a single large recently evolved group which contained several small clonal clusters. Haplotype analysis of a representative strain subset revealed a high level of recombination events in an otherwise clonal population. Pairs of isolates from single sources showed non-identity attributable to loss of heterozygosity in some genes in a manner similar to that established for C.

Comparison of Candida albicans strain types among isolates from three countries.

Multi-locus sequence typing data for 217 Candida albicans isolates cultured since 1990 from blood and vaginal samples in Japan, England/Wales and the USA were analysed for geographically related variations. While no significant differences were found between distributions of diploid sequence types (DSTs) in blood vs. vaginal isolates, there were highly significant differences in the clade distributions of isolates from the three geographical sources.

One year prospective survey of Candida bloodstream infections in Scotland.

A 12 month survey of candidaemia in Scotland, UK, in which every Scottish hospital laboratory submitted all blood isolates of yeasts for identification, strain typing and susceptibility testing, provided 300 isolates from 242 patients, generating incidence data of 4.8 cases per 100,000 population per year and 5.9 cases per 100,000 acute occupied bed days; 27.

Molecular phylogenetics of Candida albicans.

We analyzed data on multilocus sequence typing (MLST), ABC typing, mating type-like locus (MAT) status, and antifungal susceptibility for a panel of 1,391 Candida albicans isolates. Almost all (96.7%) of the isolates could be assigned by MLST to one of 17 clades.

Candida albicans and Candida dubliniensis respond differently to echinocandin antifungal agents in vitro.

Candida dubliniensis isolates tested for susceptibility to anidulafungin, caspofungin, and micafungin commonly showed artifactual regrowth and/or trailing effects with MIC tests done under conditions involving a high initial yeast concentration. The artifacts were less common with Candida albicans and seldom seen for either species under Clinical and Laboratory Standards Institute method M27-A test conditions.

Strain typing and determination of population structure of Candida krusei by multilocus sequence typing.

A multilocus sequence typing (MLST) scheme for Candida krusei was devised, based on sequencing of six gene fragments of the species. The existence of heterozygous results for each of the six fragments sequenced confirms that C. krusei is diploid for at least part of its genome.

Amino acids in the TM4-TM5 loop of Na,K-ATPase are important for biosynthesis.

The ten-transmembrane Na,K-ATPase alpha-subunit exposes very few amino acids to the extra membrane space except for an approximately 408 residue-long loop between transmembrane segments four and five. The present paper focuses on the role of this loop in biosynthesis of functional Na,K-ATPase. Expression of 39 mutations in this loop to phylogenetically conserved as well as nonconserved residues showed that only two could be expressed at 30 degrees C.

Importance of Na,K-ATPase residue alpha 1-Arg544 in the segment Arg544-Asp567 for high-affinity binding of ATP, ADP, or MgATP.

To identify residues involved in ATP binding in the N-domain of the alpha1-subunit of Na,K-ATPase, mutations were directed to the segment Arg(544)-Asp(567), a beta-strand-loop-helix structure with Arg(544) positioned at the mouth of the ATP-binding pocket near the interface to the P-domain. Substitution of Arg(544) with Gln abolished high-affinity binding of free ATP, while substitution with lysine reduced ADP affinity with minor effects on ATP binding. The contribution of Arg(544) to the change in free energy of ATP binding was estimated to 6.