Fungal antioxidant pathways promote survival against neutrophils during infection
Sixto M. Leal Jr., … , Michelle Momany, Eric Pearlman
Sixto M. Leal Jr., … , Michelle Momany, Eric Pearlman
Published June 18, 2012
Citation Information: J Clin Invest. 2012;122(7):2482-2498. https://doi.org/10.1172/JCI63239.
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Research Article Immunology

Fungal antioxidant pathways promote survival against neutrophils during infection

Abstract

Filamentous fungi are a common cause of blindness and visual impairment worldwide. Using both murine model systems and in vitro human neutrophils, we found that NADPH oxidase produced by neutrophils was essential to control the growth of Aspergillus and Fusarium fungi in the cornea. We demonstrated that neutrophil oxidant production and antifungal activity are dependent on CD18, but not on the β-glucan receptor dectin-1. We used mutant A. fumigatus strains to show that the reactive oxygen species–sensing transcription factor Yap1, superoxide dismutases, and the Yap1-regulated thioredoxin antioxidant pathway are each required for protection against neutrophil-mediated oxidation of hyphae as well as optimal survival of fungal hyphae in vivo. We also demonstrated that thioredoxin inhibition using the anticancer drug PX-12 increased the sensitivity of fungal hyphae to both H2O2- and neutrophil-mediated killing in vitro. Additionally, topical application of PX-12 significantly enhanced neutrophil-mediated fungal killing in infected mouse corneas. Cumulatively, our data reveal critical host oxidative and fungal anti-oxidative mediators that regulate hyphal survival during infection. Further, these findings also indicate that targeting fungal anti-oxidative defenses via PX-12 may represent an efficacious strategy for treating fungal infections.

Authors

Sixto M. Leal Jr., Chairut Vareechon, Susan Cowden, Brian A. Cobb, Jean-Paul Latgé, Michelle Momany, Eric Pearlman

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Figure 3

Neutrophil NOX is required for control of A. fumigatus fungal growth during corneal infection.

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Neutrophil NOX is required for control of A. fumigatus fungal growth dur...
(A) C57BL/6 mice and Cybb–/– mice were infected with 40,000 A. fumigatus strain Af-dsRed conidia. Eyes were imaged at 48 hours after infection for ROS-mediated CFDA dye oxidation, fungal dsRed expression, and corneal opacity. (B) CFDA dye oxidation, (C) fungal dsRed expression, (D) CFU, (E) corneal opacity area, and (F) total corneal opacity were quantified after infection. (G) 5-μm sections of 48-hour-infected fungal corneas were stained with PASH or neutrophil-specific NIMP antibody. (H) Cd18–/– mice were infected with A. fumigatus strain Af-dsRed conidia. At 2 hours after infection, one set of mice were left untreated, the second set received an i.v. injection of 4 × 106 BMNs isolated from C57BL/6 mice, and a third set received the same number of neutrophils isolated from Cybb–/– mice. (I) At 24 hours after infection, eyes were imaged and fungal dsRed expression quantified using MetaMorph software. Three independent experiments (n = 5) were performed. *P < 0.05. Original magnification, ×20 (eye images); ×400 (histology).