Background: Paracoccidioides is the causative agent of paracoccidioidomycosis, a systemic mycosis endemic to Latin America. Infection is initiated by inhalation of conidia (C) or mycelial (M) fragments, which subsequently differentiate into yeast (Y). Epidemiological studies show a striking predominance of paracoccidioidomycosis in adult men compared to premenopausal women. In vitro and in vivo studies suggest that the female hormone (17β-estradiol, E2) regulates or inhibits M-or-C-to-Y transition. In this study we have profiled transcript expression to understand the molecular mechanism of how E2 inhibits M-to-Y transition.
Methodology: We assessed temporal gene expression in strain Pb01 in the presence or absence of E2 at various time points through 9 days of the M-to-Y transition using an 11,000 element random-shear genomic DNA microarray and verified the results using quantitative real time-PCR. E2-regulated clones were sequenced to identify genes and biological function.
Principal findings: E2-treatment affected gene expression of 550 array elements, with 331 showing up-regulation and 219 showing down-regulation at one or more time points (p ≤ 0.001). Genes with low expression after 4 or 12 h exposure to E2 belonged to pathways involved in heat shock response (hsp90 and hsp70), energy metabolism, and several retrotransposable elements. Y-related genes, α-1,3-glucan synthase, mannosyltransferase and Y20, demonstrated low or delayed expression in E2-treated cultures. Genes potentially involved in signaling, such as palmitoyltransferase (erf2), small GTPase RhoA, phosphatidylinositol-4-kinase, and protein kinase (serine/threonine) showed low expression in the presence of E2, whereas a gene encoding for an arrestin domain-containing protein showed high expression. Genes related to ubiquitin-mediated protein degradation, and oxidative stress response genes were up-regulated by E2.
Conclusion: This study characterizes the effect of E2 at the molecular level on the inhibition of the M-to-Y transition and is indicative that the inhibitory actions of E2 may be working through signaling genes that regulate dimorphism.
Overall design: Two-condition experiment, Controls vs. 17β-estradiol (E2) treated Paracoccidioides Pb01 cells (at 0, 4, 12 24, 72, 144 or 216 h time points). Biological replicates: 4 controls (2 untreated(C) + 2 ethanol (OH) treated control), 2 (E2)treated at each time points, independently grown and harvested. Two array from each biological samples.
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