Candidalysin Is the Hemolytic Factor of .

produces an important virulence factor, the hypha-associated -derived secreted peptide toxin candidalysin, which is crucial for the establishment of mucosal and systemic infections. has also long been known to be hemolytic, yet the hemolytic factor has not been clearly identified. Here, we show that candidalysin is the hemolytic factor of .

Systematic Metabolic Profiling Identifies Sphingolipid Synthesis as Hypha Associated and Essential for Candida albicans Filamentation.

The yeast-to-hypha transition is a key virulence attribute of the opportunistic human fungal pathogen Candida albicans, since it is closely tied to infection-associated processes such as tissue invasion and escape from phagocytes. While the nature of hypha-associated gene expression required for fungal virulence has been thoroughly investigated, potential morphotype-dependent activity of metabolic pathways remained unclear. Here, we combined global transcriptome and metabolome analyses for the wild-type SC5314 and the hypha-defective Δ and ΔΔ strains under three hypha-inducing (human serum, -acetylglucosamine, and alkaline pH) and two yeast-promoting conditions to identify metabolic adaptions that accompany the filamentation process.

Impaired amino acid uptake leads to global metabolic imbalance of Candida albicans biofilms.

Candida albicans biofilm maturation is accompanied by enhanced expression of amino acid acquisition genes. Three state-of-the-art omics techniques were applied to detail the importance of active amino acid uptake during biofilm development. Comparative analyses of normoxic wild-type biofilms were performed under three metabolically challenging conditions: aging, hypoxia, and disabled amino acid uptake using a strain lacking the regulator of amino acid permeases Stp2.

SR-Like Protein Kinases Regulate Different Cellular Processes: Sky1 Is Involved in Control of Ion Homeostasis, While Sky2 Is Important for Dipeptide Utilization.

Protein kinases play a crucial role in regulating cellular processes such as growth, proliferation, environmental adaptation and stress responses. Serine-arginine (SR) protein kinases are highly conserved in eukaryotes and regulate fundamental processes such as constitutive and alternative splicing, mRNA processing and ion homeostasis. The genome encodes two (Sky1, Sky2) and the genome has one homolog (Sky1) of the human SR protein kinase 1, but their functions have not yet been investigated.

Encodes a High-Specificity Proline Permease in Candida albicans.

The tight association of Candida albicans with the human host has driven the evolution of mechanisms that permit metabolic flexibility. Amino acids, present in a free or peptide-bound form, are abundant carbon and nitrogen sources in many host niches. In C.

Survival Strategies of Pathogenic Species in Human Blood Show Independent and Specific Adaptations.

Only four species, , , , and , together account for about 90% of all bloodstream infections and are among the most common causes of invasive fungal infections of humans. However, virulence potential varies among these species, and the phylogenetic tree reveals that their pathogenicity may have emerged several times independently during evolution. We therefore tested these four species in a human whole-blood infection model to determine, via comprehensive dual-species RNA-sequencing analyses, which fungal infection strategies are conserved and which are recent evolutionary developments.

Clinical Vaginal Isolates and a Laboratory Strain Show Divergent Behaviors during Macrophage Interactions.

Typically, established lab strains are widely used to study host-pathogen interactions. However, to better reflect the infection process, the experimental use of clinical isolates has come more into focus. Here, we analyzed the interaction of multiple vaginal isolates of the opportunistic fungal pathogen , the most common cause of vulvovaginal candidiasis in women, with key players of the host immune system: macrophages.

Metals in fungal virulence.

Metals are essential for life, and they play a central role in the struggle between infecting microbes and their hosts. In fact, an important aspect of microbial pathogenesis is the 'nutritional immunity', in which metals are actively restricted (or, in an extended definition of the term, locally enriched) by the host to hinder microbial growth and virulence. Consequently, fungi have evolved often complex regulatory networks, uptake and detoxification systems for essential metals such as iron, zinc, copper, nickel and manganese.

The Fungal Pathogen Does Not Depend on Surface Ferric Reductases for Iron Acquisition.

Iron acquisition is a crucial virulence determinant for many bacteria and fungi, including the opportunistic fungal pathogens and While the diverse strategies used by for obtaining iron from the host are well-described, much less is known about the acquisition of this micronutrient from host sources by - a distant relative of with closer evolutionary ties to , which nonetheless causes severe clinical symptoms in humans. Here we show that is much more restricted than in using host iron sources, lacking, for example, the ability to grow on transferrin and hemin/hemoglobin. Instead, is able to use ferritin and non-protein-bound iron (FeCl) as iron sources in a pH-dependent manner.

A Novel Hybrid Iron Regulation Network Combines Features from Pathogenic and Nonpathogenic Yeasts.

Unlabelled: Iron is an essential micronutrient for both pathogens and their hosts, which restrict iron availability during infections in an effort to prevent microbial growth. Successful human pathogens like the yeast Candida glabrata have thus developed effective iron acquisition strategies. Their regulation has been investigated well for some pathogenic fungi and in the model organism Saccharomyces cerevisiae, which employs an evolutionarily derived system.

Identification of Candida glabrata genes involved in pH modulation and modification of the phagosomal environment in macrophages.

Candida glabrata currently ranks as the second most frequent cause of invasive candidiasis. Our previous work has shown that C. glabrata is adapted to intracellular survival in macrophages and replicates within non-acidified late endosomal-stage phagosomes.

Immune evasion, stress resistance, and efficient nutrient acquisition are crucial for intracellular survival of Candida glabrata within macrophages.

Candida glabrata is both a human fungal commensal and an opportunistic pathogen which can withstand activities of the immune system. For example, C. glabrata can survive phagocytosis and replicates within macrophages.

Effective generation of transgenic reporter and gene trap lines of the medaka (Oryzias latipes) using the Ac/Ds transposon system.

In model teleost fishes like the medaka and the zebrafish many genes which have been identified in genome sequencing projects await their functional characterization. Techniques for the effective generation of transgenic animals are a prerequisite for this challenging task, and, due to their transparency, fish offer the possibility to combine the use of fluorescent proteins and developmental analysis in vivo. Here we describe the application of the Ac/Ds transposon system to generate transgenic medaka reporter and gene trap lines.