Project description:Comparative analysis of genome wide binding profile of Ncb2 in azole sensitive (AS, Gu4) and azole resistant (AR, Gu5) clinical isolates of Candida albicans. The goal was to study the role of Ncb2 in acquisition of drug resistance by comparing the binding profiles of Ncb2 in both the isolates.
Project description:Invasive fungal infections are important healthcare associated disease worldwide especially in intensive care units More recently, Candida auris a multidrug and potentially pan-resistant species has globally emerged as a new nosocomial pathogen, which has been already reported from at least 50 countries on six continents. Clinical studies showed that previously well-defined phylogenetic C. auris clades display significant differences regarding their pathogenicity, virulence, metabolism and susceptibility profile to traditional antifungal therapies. Based on epidemiological data, isolates belonging to the South Asian clade show the highest ratio of resistance to fluconazole (97%), amphotericin B (47%) and this clade involves the highest number of multidrug resistant isolates (45%), which compromise the efficacy of applied antifungal therapy. In the past decade, a new broad-spectrum antifungal drug, isavuconazole (ISA), has been introduced into clinical practice. ISA is primarily approved for the treatment of invasive aspergillosis and mucormycosis, and currently, there are no available recommendations for the therapy of invasive Candida infections. In our previous study, we reported different ISA susceptibility profiles between isolates belonging to South Asian lineage. However, the global transcriptional - even isolate specific - response remained unresolved. Therefore, our study aimed to reveal those molecular events, which are associated with ISA exposure using high throughput RNA sequencing (RNAseq).
Project description:RNA sequencing was performed on Candida albicans clinical isolates that display normal (isolates: 3560, 3605, 3609, 4108, 4259) or aberrant (isolates: 3534, 3544, 3621, 3636, 4036) beta-glucan masking in response to lactate and hypoxia. Each clinical isolate was grown to exponential phase in GYNB under normoxic conditions and then exposed for 5 h to: (a) 1% lactate; (b) 0% lactate control; (c) hypoxia; or (d) normoxic control. Three independent experiments were performed for each clinical isolate.
