Participation of Zip3, a ZIP domain-containing protein, in stress response and virulence in Cryptococcus gattii

Participation of Zip3, a ZIP domain-containing protein, in stress response and virulence in Cryptococcus gattii

•Cryptococcus gattii Zip3 is ortholog to Saccharomyces cerevisiae Atx2p.•Cryptococcal cells rely on the proper expression of Zip3 to sustain stress conditions.•Zip3 impacts the secretion of extracellular vesicles and glucuronoxylomannan.•The absence of Zip3 led to impaired virulence of C. gattii. Cr...

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Published in:Fungal genetics and biology Vol. 144; p. 103438
Main Authors: Garcia, Ane Wichine Acosta, Kinskovski, Uriel Perin, Diehl, Camila, Reuwsaat, Júlia Catarina Vieira, Motta de Souza, Heryk, Pinto, Helber Barboza, Trentin, Danielle da Silva, de Oliveira, Haroldo Cesar, Rodrigues, Marcio L., Becker, Emilene Mendes, Kmetzsch, Livia, Vainstein, Marilene Henning, Staats, Charley Christian
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01-11-2020
Subjects:
Cryptococcus gattii
Manganese
Oxidative stress
Secretion
Cryptococcus gattii
Oxidative stress
Secretion
Manganese
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Summary:•Cryptococcus gattii Zip3 is ortholog to Saccharomyces cerevisiae Atx2p.•Cryptococcal cells rely on the proper expression of Zip3 to sustain stress conditions.•Zip3 impacts the secretion of extracellular vesicles and glucuronoxylomannan.•The absence of Zip3 led to impaired virulence of C. gattii. Cryptococcus gattii is an etiologic agent of cryptococcosis, a potentially fatal disease that affects humans and animals. The successful infection of mammalian hosts by cryptococcal cells relies on their ability to infect and survive in macrophages. Such phagocytic cells present a hostile environment to intracellular pathogens via the production of reactive nitrogen and oxygen species, as well as low pH and reduced nutrient bioavailability. To overcome the low-metal environment found during infection, fungal pathogens express high-affinity transporters, including members of the ZIP family. Previously, we determined that functional zinc uptake driven by Zip1 and Zip2 is necessary for full C.gattiivirulence. Here, we characterized the ZIP3 gene of C. gattii, an ortholog of the Saccharomyces cerevisiae ATX2, which codes a manganese transporter localized to the membrane of the Golgi apparatus. Cryptococcal cells lacking Zip3 were tolerant to toxic concentrations of manganese and had imbalanced expression of intracellular metal transporters, such as the vacuolar Pmc1 and Vcx1, as well as the Golgi Pmr1. Moreover, null mutants of the ZIP3 gene displayed higher sensitivity to reactive oxygen species (ROS) and substantial alteration in the expression of ROS-detoxifying enzyme-coding genes. In line with these phenotypes, cryptococcal cells displayed decreased virulence in a non-vertebrate model of cryptococcosis. Furthermore, we found that the ZIP3 null mutant strain displayed decreased melanization and secretion of the major capsular component glucuronoxylomannan, as well as an altered extracellular vesicle dimensions profile. Collectively, our data suggest that Zip3 activity impacts the physiology, and consequently, several virulence traits of C. gattii.
ISSN:1087-1845
1096-0937
DOI:10.1016/j.fgb.2020.103438