Abstract
The APSES family proteins are transcription factors (TFs) with a basic helix-loop-helix domain, known to regulate growth, development, secondary metabolism, and other biological processes in Aspergillus species. In the genome of the human opportunistic pathogenic fungus Aspergillus fumigatus, five genes predicted to encode APSES TFs are present. Here, we report the characterization of one of these genes, called mbsA (Afu7g05620). The deletion (Δ) of mbsA resulted in significantly decreased hyphal growth and asexual sporulation (conidiation), and lowered mRNA levels of the key conidiation genes abaA, brlA, and wetA. Moreover, ΔmbsA resulted in reduced spore germination rates, elevated sensitivity toward Nikkomycin Z, and significantly lowered transcripts levels of genes associated with chitin synthesis. The mbsA deletion also resulted in significantly reduced levels of proteins and transcripts of genes associated with the SakA MAP kinase pathway. Importantly, the cell wall hydrophobicity and architecture of the ΔmbsA asexual spores (conidia) were altered, notably lacking the rodlet layer on the surface of the ΔmbsA conidium. Comparative transcriptomic analyses revealed that the ΔmbsA mutant showed higher mRNA levels of gliotoxin (GT) biosynthetic genes, which was corroborated by elevated levels of GT production in the mutant. While the ΔmbsA mutant produced higher amount of GT, ΔmbsA strains showed reduced virulence in the murine model, likely due to the defective spore integrity. In summary, the putative APSES TF MbsA plays a multiple role in governing growth, development, spore wall architecture, GT production, and virulence, which may be associated with the attenuated SakA signaling pathway.
Highlights
Members of APSES family (Asm1p, Phd1p, Sok2p, Efg1p, and StuAp) transcription factors (TFs) regulate growth, morphogenesis, development, secondary metabolism, and other biological processes in fungi [1]
In the unrooted phylogenetic analysis based on the amino acid sequence of KilA-N domain, MbsA homologs of Aspergillus are clustered in the same group, RgdA of A. fumigatus (AfuRgdA) and Mbp1 of S. cerevisiae form another group, and StuA of A. fumigatus (AfuStuA) is distinctly related (Figure 1B)
Among the five predicted APSES TFs, only StuA and RgdA have been studied in A. fumigatus [6,7,8,10,11,12]
Summary
Members of APSES family (Asm1p, Phd1p, Sok2p, Efg1p, and StuAp) transcription factors (TFs) regulate growth, morphogenesis, development, secondary metabolism, and other biological processes in fungi [1]. Based on correlation of APSES domain, this proteins are divided into four major groups (clade A to D) [1] Each of these proteins has been shown to play a critical role in governing fungal morphogenesis, development, and virulence. The conidia wall architecture and hydrophobicity are changed in the ∆rgdA mutant [8] These findings suggest that in addition to functioning as a transcriptional repressor during conidiation, RgdA may govern other cellular processes in A. fumigatus. Biochemical, genomic, histological, and virulence studies have revealed that MbsA plays a multiple role in governing cellular proliferation, asexual development, cell wall architecture, spore integrity, gliotoxin production, virulence, as well as proper SakA MAP kinase signaling
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