| Literature DB >> 26878695 |
Ariane Cristina Mendes de Oliveira Bruder Nascimento1, Thaila Fernanda Dos Reis1, Patrícia Alves de Castro1, Juliana I Hori1, Vinícius Leite Pedro Bom1, Leandro José de Assis1, Leandra Naira Zambelli Ramalho2, Marina Campos Rocha3, Iran Malavazi3, Neil Andrew Brown4, Vito Valiante5, Axel A Brakhage6, Daisuke Hagiwara7, Gustavo H Goldman1.
Abstract
Here, we investigated which stress responses were influenced by the MpkC and SakA mitogen-activated protein kinases of the high-osmolarity glycerol (HOG) pathway in the fungal pathogen Aspergillus fumigatus. The ΔsakA and the double ΔmpkC ΔsakA mutants were more sensitive to osmotic and oxidative stresses, and to cell wall damaging agents. Both MpkC::GFP and SakA::GFP translocated to the nucleus upon osmotic stress and cell wall damage, with SakA::GFP showing a quicker response. The phosphorylation state of MpkA was determined post exposure to high concentrations of congo red and Sorbitol. In the wild-type strain, MpkA phosphorylation levels progressively increased in both treatments. In contrast, the ΔsakA mutant had reduced MpkA phosphorylation, and surprisingly, the double ΔmpkC ΔsakA had no detectable MpkA phosphorylation. A. fumigatus ΔsakA and ΔmpkC were virulent in mouse survival experiments, but they had a 40% reduction in fungal burden. In contrast, the ΔmpkC ΔsakA double mutant showed highly attenuated virulence, with approximately 50% mice surviving and a 75% reduction in fungal burden. We propose that both cell wall integrity (CWI) and HOG pathways collaborate, and that MpkC could act by modulating SakA activity upon exposure to several types of stresses and during CW biosynthesis.Entities:
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Year: 2016 PMID: 26878695 DOI: 10.1111/mmi.13354
Source DB: PubMed Journal: Mol Microbiol ISSN: 0950-382X Impact factor: 3.501