posted on 2020-04-14, 14:52authored byMatthew
G. Blango, Annica Pschibul, Flora Rivieccio, Thomas Krüger, Muhammad Rafiq, Lei-Jie Jia, Tingting Zheng, Marie Goldmann, Vera Voltersen, Jun Li, Gianni Panagiotou, Olaf Kniemeyer, Axel A. Brakhage
Fungal
spores and hyphal fragments play an important role as allergens
in respiratory diseases. In this study, we performed trypsin shaving
and secretome analyses to identify the surface-exposed proteins and
secreted/shed proteins of Aspergillus fumigatus conidia, respectively. We investigated the surface proteome under
different conditions, including temperature variation and germination.
We found that the surface proteome of resting A. fumigatus conidia is not static but instead unexpectedly dynamic, as evidenced
by drastically different surface proteomes under different growth
conditions. Knockouts of two abundant A. fumigatus surface proteins, ScwA and CweA, were found to function only in
fine-tuning the cell wall stress response, implying that the conidial
surface is very robust against perturbations. We then compared the
surface proteome of A. fumigatus to
other allergy-inducing molds, including Alternaria
alternata, Penicillium rubens, and Cladosporium herbarum, and performed
comparative proteomics on resting and swollen conidia, as well as
secreted proteins from germinating conidia. We detected 125 protein
ortholog groups, including 80 with putative catalytic activity, in
the extracellular region of all four molds, and 42 nonorthologous
proteins produced solely by A. fumigatus. Ultimately, this study highlights the dynamic nature of the A. fumigatus conidial surface and provides targets
for future diagnostics and immunotherapy.