Abstract
In order for eukaryotes to efficiently detect and respond to environmental stimuli, a myriad of protein signaling pathways are utilized. An example of highly conserved signaling pathways in eukaryotes are the mitogen-activated protein kinase (MAPK) pathways. In fungi, MAPK pathways have been shown to regulate a diverse array of biological processes, such as asexual and sexual development, stress responses and the production of secondary metabolites (SMs). In the model fungus Aspergillus nidulans, a MAPK pathway known as the pheromone module is utilized to regulate both development and SM production. This signaling cascade consists of the three kinases SteC, MkkB, and MpkB, as well as the SteD adaptor protein and the HamE scaffold. In this study, homologs of each of these proteins have been identified in the opportunistic human pathogen A. fumigatus. By performing epitope tagging and mass spectrometry experiments, we have shown that these proteins form a pentameric complex, similar to what is observed in A. nidulans. This complex has been shown to assemble in the cytoplasm and MpkB enters the nucleus, where it would presumably interact with various transcription factors. Pheromone module mutant strains exhibit drastic reductions in asexual sporulation, vegetative growth rate and production of SMs, such as gliotoxin. Mutants also display increased sensitivity to cell wall and oxidative stress agents. Overall, these data provide evidence of the existence of a conserved MAP kinase signaling pathway in Aspergillus species and suggest that this pathway is critical for the regulation of fungal development and secondary metabolism.
Highlights
Aspergillus fumigatus is a saprophytic fungus that is ubiquitous in the environment and is an opportunistic human pathogen (Latge, 1999)
To determine whether A. fumigatus possesses homologs of the pheromone module proteins that are present in A. nidulans, reciprocal BLAST searches (Altschul et al, 1990) were performed and the ASPGD website was utilized1
In A. nidulans, this SAM domain is located between amino acid residues 63 and 126, while for A. fumigatus, it is present between amino acids 98 and 161
Summary
Aspergillus fumigatus is a saprophytic fungus that is ubiquitous in the environment and is an opportunistic human pathogen (Latge, 1999) This species reproduces predominately via the production of hydrophobic conidia that can spread throughout the air, allowing for the rapid colonization of new environments (Dagenais and Keller, 2009). A. fumigatus utilizes various systems that aid in the detoxification of reactive oxygen species that are produced by phagocytic immune cells like neutrophils and macrophages (Abad et al, 2010; Hillmann et al, 2016) Another virulence factor is the fungal cell wall, which is the main defense and source of structural integrity for A. fumigatus cells as they colonize the lungs (Abad et al, 2010). Gliotoxin production enables fungal growth and colonization of host tissue via suppression of the immune system (Ghazaei, 2017)
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