The ZrfC Alkaline Zinc Transporter is Required for Aspergillus Fumigatus Virulence and Its Growth in the Presence of the Zn/Mn-chelating Protein Calprotectin
Overview
Microbiology
Authors
Affiliations
Aspergillus fumigatus can invade the lungs of immunocompromised individuals causing a life-threatening disease called invasive pulmonary aspergillosis (IPA). To grow in the lungs, A. fumigatus obtains from the host all nutrients, including zinc. In living tissues, however, most zinc is tightly bound to zinc-binding proteins. Moreover, during infection the bioavailability of zinc can be further decreased by calprotectin, an antimicrobial Zn/Mn-chelating protein that is released by neutrophils in abscesses. Nevertheless, A. fumigatus manages to uptake zinc from and grow within the lungs of susceptible individuals. Thus, in this study we investigated the role of the zrfA, zrfB and zrfC genes, encoding plasma membrane zinc transporters, in A. fumigatus virulence. We showed that zrfC is essential for virulence in the absence of zrfA and zrfB, which contribute to fungal pathogenesis to a lesser extent than zrfC and are dispensable for virulence in the presence of zrfC. The special ability of ZrfC to scavenge and uptake zinc efficiently from lungtissue depended on its N-terminus, which is absent in the ZrfA and ZrfB transporters. In addition, under Zn- and/or Mn-limiting conditions zrfC enables A. fumigatus to grow in the presence of calprotectin, which is detected in fungal abscesses of non-leucopenic animals. This study extends our knowledge about the pathobiology of A. fumigatus and suggests that fungal zinc uptake could be a promising target for new antifungals.
The influence of amoeba metal homeostasis on antifungal activity against Cryptococcus gattii.
Joao M, Tavanti A, Vargas A, Kmetzsch L, Staats C Genet Mol Biol. 2024; 47(2):e20230320.
PMID: 39093931 PMC: 11290705. DOI: 10.1590/1678-4685-GMB-2023-0320.
Zinc Starvation Induces Cell Wall Remodeling and Activates the Antioxidant Defense System in .
Santos T, Soares L, Oliveira L, Moraes D, Mendes M, Soares C J Fungi (Basel). 2024; 10(2).
PMID: 38392790 PMC: 10890210. DOI: 10.3390/jof10020118.
Shinohara T, Wada A, Abe M, Nakayama N, Nagi M, Miyazaki Y JAC Antimicrob Resist. 2024; 6(1):dlad155.
PMID: 38384742 PMC: 10880073. DOI: 10.1093/jacamr/dlad155.
Mesquita L, Bailao A, Santana de Curcio J, da Silva K, da Rocha Fernandes G, Silva-Bailao M J Fungi (Basel). 2023; 9(3).
PMID: 36983449 PMC: 10056003. DOI: 10.3390/jof9030281.
Fungal Zinc Homeostasis and Its Potential as an Antifungal Target: A Focus on the Human Pathogen .
Zhai P, Chai Y, Lu L Microorganisms. 2022; 10(12).
PMID: 36557722 PMC: 9785309. DOI: 10.3390/microorganisms10122469.