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Zinc Starvation Induces Cell Wall Remodeling and Activates the Antioxidant Defense System in Fonsecaea pedrosoi .

Tayná Aparecida de Oliveira SantosLucas Weba SoaresLucas Nojosa OliveiraDayane MoraesMillena Silva MendesCélia Maria de Almeida SoaresAlexandre Melo BailãoMirelle Garcia Silva Bailão
Published in: Journal of fungi (Basel, Switzerland) (2024)
The survival of pathogenic fungi in the host after invasion depends on their ability to obtain nutrients, which include the transition metal zinc. This essential micronutrient is required to maintain the structure and function of various proteins and, therefore, plays a critical role in various biological processes. The host's nutritional immunity limits the availability of zinc to pathogenic fungi mainly by the action of calprotectin, a component of neutrophil extracellular traps. Here we investigated the adaptive responses of Fonsecaea pedrosoi to zinc-limiting conditions. This black fungus is the main etiological agent of chromoblastomycosis, a chronic neglected tropical disease that affects subcutaneous tissues. Following exposure to a zinc-limited environment, F. pedrosoi induces a high-affinity zinc uptake machinery, composed of zinc transporters and the zincophore Pra1. A proteomic approach was used to define proteins regulated by zinc deprivation. Cell wall remodeling, changes in neutral lipids homeostasis, and activation of the antioxidant system were the main strategies for survival in the hostile environment. Furthermore, the downregulation of enzymes required for sulfate assimilation was evident. Together, the adaptive responses allow fungal growth and development and reveals molecules that may be related to fungal persistence in the host.
Keyphrases
  • cell wall
  • oxide nanoparticles
  • oxidative stress
  • gene expression
  • rheumatoid arthritis
  • systemic lupus erythematosus
  • risk assessment
  • transition metal
  • disease activity
  • fatty acid
  • atomic force microscopy
  • high speed