Low-Intensity, Short-Duration Proton Irradiation Enhances Oxidative Stress Sensitivity of Aspergillus nidulans, with Transcriptomic Data Indicating Downregulation of Antioxidative Enzyme Genes
Máté Szarka, Ildikó Vig, András Fenyvesi, Barnabás Cs. Gila, Károly Antal, Zita Szikszai, István Pócsi, Tamás Emri

TL;DR
This study shows that proton irradiation increases oxidative stress sensitivity in the fungus Aspergillus nidulans by reducing antioxidant defenses.
Contribution
The novel finding is that proton irradiation downregulates antioxidant enzyme genes, increasing oxidative stress sensitivity in fungi.
Findings
Proton irradiation upregulated DNA repair genes but downregulated antioxidant enzyme genes in Aspergillus nidulans.
The ∆atfA mutant showed lower survival rates compared to the wild-type strain after proton irradiation.
RT-qPCR confirmed reduced expression of prxA, trxB, and gsh1 genes after irradiation.
Abstract
Fungi regularly occur on spacecrafts, posing a serious risk to humans and equipment. In this study, we characterized how the model organism Aspergillus nidulans responds to low-intensity, short-duration proton irradiation designed to simulate a solar particle event, a common stress factor in space. The oxidative stress-sensitive ∆atfA mutant exhibited a lower survival rate than the wild-type strain. Pretreatment of the wild-type strain with menadione sodium bisulfite (MSB), which activates oxidative stress defense mechanisms, increased tolerance to proton beam radiation. These data are consistent with the idea that oxidative defense contributes to cellular responses to ionizing radiation. Unexpectedly, the applied radiation decreased the tolerance to MSB. To understand this unusual behavior, we compared the transcriptomes of the irradiated and non-irradiated mycelia. As expected, proton…
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Taxonomy
TopicsEffects of Radiation Exposure · Spaceflight effects on biology · Radiation Therapy and Dosimetry
