JCVI: Aspergillus fumigatus AcuM Regulates Both Iron Acquisition and Gluconeogenesis
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Liu, H., Gravelat, F. N., Chiang, L. Y., Chen, D., Vanier, G., Ejzykowicz, D. E., Ibrahim, A. S., Nierman, W. C., Sheppard, D. C., Filler, S. G.

Aspergillus fumigatus AcuM Regulates Both Iron Acquisition and Gluconeogenesis

Mol Microbiol. 2010 Nov 01; 78(4): 1038-54.

PubMed Citation


Relatively few transcription factors that govern the virulence of Aspergillus fumigatus are known. We constructed 11 A. fumigatus transcription factor mutants and screened them for altered virulence in Galleria mellonella larvae. We discovered that the zinc cluster transcription factor, AcuM, is essential for maximal virulence in this model, as well as in murine models of haematogenously disseminated and invasive pulmonary aspergillosis. Transcriptional profiling experiments suggested that AcuM suppresses sreA and induces hapX to stimulate expression of genes involved in both reductive iron assimilation and siderophore-mediated iron uptake. Consistent with these results, a DeltaacuM mutant had reduced iron incorporation, decreased extracellular siderophore production and impaired capacity to grow under iron-limited conditions. Interestingly, an Aspergillus nidulansDeltaacuM mutant had normal extracellular siderophore production and growth under iron-limited conditions, indicating that AcuM does not govern iron acquisition in this organism. A. fumigatus AcuM also regulated genes involved in gluconeogenesis, and the DeltaacuM mutant had impaired growth on gluconeogenic carbon sources. Deletion of sreA in the DeltaacuM mutant restored iron uptake, extracellular siderophore production and virulence, but not the defect in gluconeogenesis. Thus, AcuM represses SreA and thereby induces iron acquisition, a process that is essential for the maximal virulence of A. fumigatus.