Abstract
The master regulator of thermal stress response, Hsf1, is also an essential determinant for viability and virulence in Candida albicans. Our recent studies highlighted that apart from ubiquitous roles of Hsf1 at higher temperatures, it also has myriad non-heat shock responsive roles essential under iron deprivation and drug defense. Here, we further explored its implications in the normal cellular functioning, by profiling its genome-wide occupancy using chromatin immuno-precipitation coupled to high-density tiling arrays under basal and iron deprived conditions. Hsf1 recruitment profiles revealed that it binds to promoters of 660 genes of varied functions, under both the conditions, however, elicited variability in intensity of binding. For instance, Hsf1 binding was observed on several genes of oxidative and osmotic stress response, cell wall integrity, iron homeostasis, mitochondrial, hyphal and multidrug transporters. Additionally, the present study divulged a novel motif under basal conditions comprising, -GTGn3GTGn3GTG- where, Hsf1 displays strong occupancy at significant number of sites on several promoters distinct from the heat induced motif. Hence, by binding to and regulating major chaperones, stress responsive genes and drug resistance regulators, Hsf1 is imperative in regulating various cellular machineries. The current study provides a framework for understanding novel aspects of how Hsf1 coordinates diverse cellular functions.
Highlights
Survival of a pathogen within the host relies on its ability to proficiently respond to various environmental stimuli it encounters
In order to get a comprehensible insight into the unconventional roles of this master regulator of heat shock response, in iron deprivation response, we performed a genome-wide recruitment analysis of heat shock transcription factor 1 (Hsf1) using chromatin immunoprecipitation (ChIP)-on chip assay
Sample replicates were processed for wildtype [BPS (−)] and iron-deprived cells [BPS (+)] to identify DNA regions that were occupied by Hsf1
Summary
Survival of a pathogen within the host relies on its ability to proficiently respond to various environmental stimuli it encounters. Apart from its response to thermal stress, Hsf is currently associated with additional roles in viability likely due to its role in enabling core gene expression programs, drug response, virulence, filamentation and iron deprivation mediated response at non-heat shock conditions (Nicholls et al 2011; Nair et al 2017). This defines an interconnected transcriptional network at the crossroads between stress responses, cellular integrity, and iron metabolism. The essentiality of this heat shock factor could be presumed to be restricted to the heat shock mediated roles
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