AI Article Synopsis

  • The Mitogen-Activated Protein kinase (MAPK) pathways in fungi, particularly the HOG pathway, are crucial for responding to environmental changes and stress, impacting their survival and colonization in hosts.
  • A study found that the antifungal Micafungin (MF) had the same minimum inhibitory concentration in both a parent strain and a mutant, indicating no difference in susceptibility, and both strains showed similar impaired cell viability after treatment.
  • Unlike the positive control Amphotericin B, MF did not activate specific antioxidant genes or influence reactive oxygen species levels, suggesting that MF's toxic effects do not involve the Hog1 MAPK pathway or oxidative stress in affected cells.

Article Abstract

In fungi, the Mitogen-Activated Protein kinase (MAPK) pathways sense a wide variety of environmental stimuli, leading to cell adaptation and survival. The HOG pathway plays an essential role in the pathobiology of , including the colonization of the gastrointestinal tract in a mouse model, virulence, and response to stress. Here, we examined the role of Hog1 in the response to the clinically relevant antifungal Micafungin (MF), whose minimum inhibitory concentration (MIC) was identical in the parental strain (RM100) and in the isogenic homozygous mutant (0.016 mg/L). The cell viability was impaired without significant differences between the parental strain, the isogenic mutant, and the Hog1 reintegrant. This phenotype was quite similar in a collection of mutants constructed in a different background. MF-treated cells failed to induce a relevant increase of both reactive oxygen species (ROS) formation and activation of the mitochondrial membrane potential in parental and cells. MF was also unable to trigger any significant activation of the genes coding for the antioxidant activities catalase () and superoxide dismutase (), as well as on the corresponding enzymatic activities, whereas a clear induction was observed in the presence of Amphotericin B (AMB), introduced as a positive control of Hog1 signaling. Furthermore, Hog1 was not phosphorylated by the addition of MF, but, notably, this echinocandin caused Mkc1 phosphorylation. Our results strongly suggest that the toxic effect of MF on cells is not mediated by the Hog1 MAPK and is independent of the generation of an internal oxidative stress in .

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7768384PMC
http://dx.doi.org/10.3390/microorganisms8121867DOI Listing

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