Abstract

ABSTRACT Candida albicans is an opportunistic fungal pathogen known for surviving in various nutrient-limited conditions within the host and causing infections. Our prior research revealed that Hfl1p, an archaeal histone-like or Hap5-like protein, is linked to mitochondrial ATP generation and yeast-hyphae morphogenesis. However, the specific roles of Hfl1p in these virulence behaviours, through its function in the CBF/NF-Y complex or as a DNA polymerase II subunit, remain unclear. This study explores Hfl1p’s diverse functions in energy metabolism and morphogenesis. By combining proteomic analysis and phenotypic evaluations of the hfl1Δ/hfl1Δ mutant with ChIP data, we found that Hfl1p significantly impacts mitochondrial DNA-encoded CI subunits, the tricarboxylic acid (TCA) cycle, and morphogenetic pathways. This influence occurs either independently or alongside other transcription factors recognizing a conserved DNA motif (TAXXTAATTA). These findings emphasize Hfl1p’s critical role in linking carbon metabolism and mitochondrial respiration to the yeast-to-filamentous form transition, enhancing our understanding of C. albicans’ metabolic adaptability during morphological transition, an important pathogenic trait of this fungus. This could help identify therapeutic targets by disrupting the relationship between energy metabolism and cell morphology in C. albicans.

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