Expression levels of a filament-specific transcriptional regulator are sufficient to determine Candida albicans morphology and virulence

Abstract: Candida albicans, the major human fungal pathogen, undergoes a reversible morphological transition from single yeast cells to pseudohyphal and hyphal filaments (elongated cells attached end-to-end). Because typical C. albicans infections contain a mixture of these morphologies it has, for many years, been difficult to assess the relative contribution of each form to virulence. In addition, the regulatory mechanisms that determine growth in pseudohyphal and hyphal morphologies are largely unknown. To address th… Show more

“…The findings of Carlisle et al (5) have broader evolutionary implications. The finding that pseudohyphae are a developmental way station between yeast and hyphae suggests stepwise evolution (Fig.…”

“…1). This question, and implications for virulence, were addressed by Carlisle et al with engineered strains (5).…”

“…S. cerevisiae pseudohyphal growth long eluded detection-it requires special conditions/strains and was lost during domestication (4). How pseudohyphae are related to yeast and hyphae (as a distinct fate or a continuum) was unknown until the report of Carlisle et al (5) in this issue of PNAS. They reveal that pseudohyphae are intermediate between yeast and hyphae, with implications for pathogen-host interactions and fungal evolution.…”

“…The studies of Carlisle et al (5) involve controlling expression of Ume6, a zinc-finger transcription factor downstream of Nrg1 in circuits for dimorphic transition and virulence (13,14). In their studies, Ume6 was expressed from the doxycycline-regulatable promoter (tet-UME6), leading to controlled consequences: yeast with the promoter off (doxϩ), and hyphae in response to high-level Ume6 (doxϪ), even under non-filamentinducing conditions.…”

Trimorphic stepping stones pave the way to fungal virulence

“…The findings of Carlisle et al (5) have broader evolutionary implications. The finding that pseudohyphae are a developmental way station between yeast and hyphae suggests stepwise evolution (Fig.…”

“…1). This question, and implications for virulence, were addressed by Carlisle et al with engineered strains (5).…”

“…S. cerevisiae pseudohyphal growth long eluded detection-it requires special conditions/strains and was lost during domestication (4). How pseudohyphae are related to yeast and hyphae (as a distinct fate or a continuum) was unknown until the report of Carlisle et al (5) in this issue of PNAS. They reveal that pseudohyphae are intermediate between yeast and hyphae, with implications for pathogen-host interactions and fungal evolution.…”

“…The studies of Carlisle et al (5) involve controlling expression of Ume6, a zinc-finger transcription factor downstream of Nrg1 in circuits for dimorphic transition and virulence (13,14). In their studies, Ume6 was expressed from the doxycycline-regulatable promoter (tet-UME6), leading to controlled consequences: yeast with the promoter off (doxϩ), and hyphae in response to high-level Ume6 (doxϪ), even under non-filamentinducing conditions.…”

Trimorphic stepping stones pave the way to fungal virulence

“…The combination of hypoxia and high CO 2 , but neither condition alone, maintains C. albicans hyphal elongation, even in mutants lacking the nutrient responsive chromatin-remodeling pathway . One key downstream target of Hda1-mediated chromatin regulation is Ume6, a hypha-specific transcription factor that controls the level and duration of hypha-specific transcription (Banerjee et al 2008;Carlisle et al 2009;Zeidler et al 2009;Lu et al 2012). Ume6 is stabilized via regulation by Ofd1, a prolyl hydroxylase family member that is inhibited by hypoxia and an uncharacterized pathway that senses high CO 2 .…”

Fungal Morphogenesis

Current awareness on yeast