Link to bioRxiv paper: http://biorxiv.org/cgi/content/short/2020.08.03.235119v1?rss=1 Authors: da Costa Filho, A. P., Brancini, G. T., de Castro, P. A., Ferreira, J. A., Silva, L. P., Rocha, M. C., Malavazi, I., de Moraes Pontes, J. G., Fill, T., Silva, R., Almeida, F., Steenwyk, J. L., Rokas, A., dos Reis, T. F., Ries, L. N., Goldman, G. H. Abstract: G-protein coupled receptors (GPCRs) are extracellular signalling receptors that sense environmental cues to coordinate a biological response. Fungi sense their environment primarily through GPCR-mediated signalling pathways, which in turn regulate fungal development, metabolism, virulence and mycotoxin biosynthesis. A. fumigatus is an important human pathogen that causes aspergillosis, a heterogeneous group of diseases that presents a wide range of clinical manifestations. Here, we investigate in detail the role of the GPCRs GprM and GprJ in growth and gene expression. GprM and GprJ are important for melanin production and the regulation of the cell wall integrity (CWI) pathway. Overexpression of gprM and gprJ causes a 20 and 50% reduction in growth rate when compared to the wild-type (WT) strain, and increases sensitivity to cell wall-damaging agents. Phosphorylation of the CWI protein kinase MpkA is increased in the {Delta}gprM and {Delta}gprJ strains and decreased in the overexpression mutants when compared to the WT strain. Furthermore, differences in cell wall polysaccharide concentrations and organization were observed in these strains. RNA-sequencing suggests that GprM and GprJ negatively regulate genes encoding secondary metabolites (SMs). Mass spectrometry analysis confirmed that the production of fumagillin, pyripyropene, fumigaclavine C, fumiquinazoline, and fumitremorgin is reduced in the {Delta}gprM and {Delta}gprJ strains, and that this regulation occurs, at least partially, through the activation of MpkA. Overexpression of grpM also resulted in the regulation of many transcription factors, with AsgA predicted to function downstream of GprM and MpkA signalling. Finally, we show that the {Delta}gprM and {Delta}gprJ mutants are reduced in virulence in the Galleria mellonella insect model of invasive aspergillosis. This work further contributes to unravelling functions of A. fumigatus GPCRs and shows that GprM and GprJ are essential for CWI, secondary metabolite production and virulence. Copy rights belong to original authors. Visit the link for more info