Project description:Purpose: We aimed to gain more aspects about Stua-regulated processes in T. rubrum by assessing the global gene expression after its growth on keratin or glucose sources. Methods: T. rubrum strain CBS118892 and the null mutant strain ΔstuA were inoculated into 100 mL Sabouraud dextrose broth, and incubated under agitation at 28 °C for 96 h. Mycelia were aseptically transferred into 100 mL minimal medium (MM) at pH 5.0 containing 70 mM nitrate and 50 mM glucose (control) or 0.5% (w/v) bovine keratin (test condition) as an alternative carbon source. The cultures were incubated under agitation at 28 °C for 24 h, 48 h, or 96 h. Equal amounts of RNA from three independent biological replicates of keratin or glucose cultures were sequenced with a NextSeq 500 sequencer. Paired-end reads of 150 bp in size were generated. Raw data obtained were processed for quality control by FastQC tool and trimmed with Trimmomatic to remove adapters and Illumina-specific sequences. Trimmed paired-end reads from each sample were aligned to the T. rubrum reference genome. Gene-level read counts were quantified with STAR’s ‘-quantModeGeneCounts’ parameter. Differential expression was analyzed with the DESeq2 bioconductor package. A Benjamini-Hochberg correction adjusted the P threshold and was applied to reveal statistically significant changes in gene expression levels. It was set to 0.05, and a cut off threshold of ±1.5 log2-fold change was set to reveal statistically significant changes in expression levels, and referred as differentially expressed genes (DEG). DEGs were functionally categorized with the Gene Ontology (GO) terms assigned by the Blast2GO algorithm. Ultimately, the most representative categories for each experimental condition were identified by enrichment analysis using the BayGO algorithm . Results: Our data showed the involvement of Stua in biological processes related to carbon central metabolism and glycerol catabolism, ROS metabolism, and cell wall construction. The deep changes in carbohydrate metabolism might be responsible for significant alteration in cell wall pattern and consequently in cell to cell interaction and adhesion as we also demonstrated in this study. The mutant strain presented an impairment in biofilm production and promoted an increase in pro-inflammatory cytokine secretion. Moreover, we displayed a StuA-dependent regulation on catalase genes. Conclusions: In conclusion, our data demonstrated the multitude of regulatory targets in TrStuA with a critical role in central metabolism that ultimately may be responsible to trigger a cascade of secondary effects with strong impacts on fungal physiology and virulence traits.

Project description:We investigated the transcription profile of germinant conidia growth on protein substrates to widen the knowledge about relevant genes for pathogenecity, and also it was verified an encoding gene of adhesin like protein, which was modulated during the growth of T. rubrum on keratin. About 2.6 x 106 conidia/ mL solution was prepared from T. rubrum growth on Sabouraud for 15 days. The solution was inoculated in Cove's medium with nitrate and glucose (control), Cove's medium with 0.25% of elastin, and Cove's medium with 0.5% of keratin. These conditions were incubated for 24h, 36h and 72h. Two independent experiments were performed for each condition.

Project description:Parasite lysates were centrifuged (20,000 g, 4°C, 15 min). Beads (blank and with linker attached) were washed 3× with water then twice with lysis buffer. The lysate (~2 mg total protein) was first incubated with 2 mg blank beads for 30 min at 4°C with rotating agitation. The lysate was divided into two then incubated with either 1% DMSO or 100 µM DDD01510706 (competitor) for 30 min at 4°C with agitation. Finally, lysates were incubated with 2 mg of compound-bound beads for 1 h at 4°C with agitation. The beads were then washed 3× with wash buffer (0.8% (w/v) octyl β-D-glucopyranoside, 50 mM Tris pH 8.0, 5 mM EDTA, 1 mg/mL BSA) and 2× Tris-buffered saline (TBS; 50 mM Tris-Cl pH 7.5, 150 mM NaCl). Samples were run 1.5 cm into a Bis-Tris 10% (w/v) acrylamide gel and stained with Coomassie quick reagent for 30 min. The entire gel bands were removed and subjected to in-gel reduction with 10 mM dithiothreitol, alkylation with 50 mM iodoacetamide and digestion with 12.5 μg/mL trypsin (Pierce) for >16 h at 37°C. Recovered tryptic peptides were then vacuum dried prior to analysis

Project description:Dermatophytes are highly specialized filamentous fungi which cause the majority of superficial mycoses in humans and animals. The high secreted proteolytic activity of these microorganisms during growth on proteins is assumed to be linked with their particular ability to exclusively infect keratinized host structures such as skin stratum corneum, hair and nails. Individual secreted dermatophyte proteases were recently described and linked with the in vitro digestion of keratin. However, the overall adaptation and transcriptional response of dermatophytes during protein degradation is largely unknown. To address this question, we constructed a cDNA microarray for the human pathogenic dermatophyte Trichophyton rubrum, which is based on transcripts of the fungus grown on proteins. Gene expression profiling during growth of T. rubrum on soy and keratin displayed the activation of a large set of genes encoding endo- and exoproteases. In addition, other specifically induced factors with potential implication in protein utilization were identified, including heat shock proteins, transporters, metabolic enzymes, transcription factors and hypothetical proteins with unknown function. This broad-scale transcriptional analysis of dermatophytes during growth on proteins reveals new putative pathogenicity related host adaptation mechanism of these human pathogenic fungi. Keywords: Two-condition experiment, strong proteolytic activity in the supernatant versus no proteolytic activity Three independently prepared T. rubrum replicates grown in each of the three media, Sabouraud, soy and keratin-soy medium (designated SabA/B/C, soyA/B/C and keratin-soyA/B/C) were used. Pairwise transcriptional comparisons, i.e. soy versus Sabouraud, keratin-soy versus Sabouraud and keratin-soy versus soy were done. The total number of slides in this study was 9.

Project description:Global Analysis of the dermatophyte Trichophyton rubrum when shifted from glucose to keratin

Project description:We assessd the transcriptional profile of T. rubrum during grown on different protein sources to mimic the natural infection sites (keratin or elastin) and exposed to trans-chalcone in order to clarify the mechanisms involved in trans-chalcone antifungal activity

Project description:10 µm formalin-fixed paraffin-embedded tissue sections were deparaffinized with xylene; homogenization was performed in lysis-buffer (20 mM Tris-HCl, pH 8.8, 200 mM glycine, 200 mM DTT, 4% SDS)in an ultrasonic bath; samples were incubated under continuous agitation first at 99 °C for 30 min, then at 80 °C for 60 min, afterwards centrifuged at 12,000xg for 10 min. 50 µg of protein lysate were further processed according the GASP (Gel-assisted sample preparation) protocol; peptide identification (IDA, information dependent acquisition) and SWATH measurements by LC-MS/MS on TripleTOF5600 (AB Sciex)

Project description:We investigated the transcription profile of germinant conidia growth on protein substrates to widen the knowledge about relevant genes for pathogenecity, and also it was verified an encoding gene of adhesin like protein, which was modulated during the growth of T. rubrum on keratin.

Project description:The aim of the present work was to study the effects of benfotiamine (S-benzoylthiamine O-monophosphate) upon glucose and lipid metabolism and gene expression in differentiated human skeletal muscle cells (myotubes) incubated for 4 days under normal (5.5 mM glucose) and hyperglycemic (20 mM glucose) conditions. Myotubes established from lean, healthy volunteers were treated with benfotiamine for 4 days. Glucose and lipid metabolism were studied with labeled precursors. Gene expression was measured using real time polymerase chain reaction (qPCR) and microarray technology.

Project description:Samples were reduced by the addition of TCEP (25 mM final concentration) and incubated at 37 ºC for 10 min. Alkylation was carried out by the addition of iodoacetamide (25 mM final concentration) and incubated at RT for 1 h in the dark. Samples were then digested by the addition of 1:50 LysC (Wako, Japan) in 100 mM triethylammonium bicarbonate (TEAB) followed by incubation at 37 ºC for 6h and then addition of 1:50 trypsin (Thermo) followed by incubation at 37 ºC overnight. The efficiency of sample digestion efficiency was assessed by MS (LTQ XL, Thermo). The samples were then vacuum-dried and resuspended in 100 mM TEAB (100 µL). Samples were then incubated in their respective Tandem Mass Tag™ (TMT) 10-plex reagents (Thermo) for 1 h at RT with agitation. Reactions were quenched by the addition of 5% hydroxylamine for 15 min and each set of samples (treated and vehicle) were pooled in the same tube and dried overnight. The TMTTM-labelled samples were dried and kept at -85 ºC until further analysis.