Abstract
Aspergillus fumigatus and multiple other Aspergillus species cause a wide range of lung infections, collectively termed aspergillosis. Aspergilli are ubiquitous in environment with healthy immune systems routinely eliminating inhaled conidia, however, Aspergilli can become an opportunistic pathogen in immune-compromised patients. The aspergillosis mortality rate and emergence of drug-resistance reveals an urgent need to identify novel targets. Secreted and cell membrane proteins play a critical role in fungal-host interactions and pathogenesis. Using a computational pipeline integrating data from high-throughput experiments and bioinformatic predictions, we have identified secreted and cell membrane proteins in ten Aspergillus species known to cause aspergillosis. Small secreted and effector-like proteins similar to agents of fungal-plant pathogenesis were also identified within each secretome. A comparison with humans revealed that at least 70% of Aspergillus secretomes have no sequence similarity with the human proteome. An analysis of antigenic qualities of Aspergillus proteins revealed that the secretome is significantly more antigenic than cell membrane proteins or the complete proteome. Finally, overlaying an expression dataset, four A. fumigatus proteins upregulated during infection and with available structures, were found to be structurally similar to known drug target proteins in other organisms, and were able to dock in silico with the respective drug.
Highlights
Aspergillosis is an umbrella term for a wide array of infections caused by multiple Aspergillus species
This study aims to identify and analyze the secretome and cell membrane proteins of A. fumigatus and nine other Aspergillus species known to cause aspergillosis, namely, A. flavus, A. niger, A. terreus, A. versicolor, A. lentulus, A. nidulans, A. glaucus, A. oryzae, and A. ustus
Analysis of a published gene expression dataset[26] for A. fumigatus, led to identification of secreted and cell membrane proteins which are upregulated under pathogenesis and have no human homologs, and such candidates were taken for further druggability analysis by computational docking experiments, thereby identifying pre-existing drugs used against other pathogens as candidates for repurposing against aspergillosis
Summary
Aspergillosis is an umbrella term for a wide array of infections caused by multiple Aspergillus species. This study aims to identify and analyze the secretome and cell membrane proteins of A. fumigatus and nine other Aspergillus species known to cause aspergillosis, namely, A. flavus, A. niger, A. terreus, A. versicolor, A. lentulus, A. nidulans, A. glaucus, A. oryzae, and A. ustus. To our knowledge, this is the first dedicated effort to characterize the secretome and cell membrane proteins of Aspergillus species with an aim to understand their role in pathogenesis and to analyze them as potential druggable proteins. Analysis of a published gene expression dataset[26] for A. fumigatus, led to identification of secreted and cell membrane proteins which are upregulated under pathogenesis and have no human homologs, and such candidates were taken for further druggability analysis by computational docking experiments, thereby identifying pre-existing drugs used against other pathogens as candidates for repurposing against aspergillosis
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