Abstract
The role of aflatoxins (AFs) in the biology of producing strains, Aspergillus sect. Flavi, is still a matter of debate. Over recent years, research has pointed to how environmental factors altering the redox balance in the fungal cell can switch on the synthesis of AF. Notably, it has been known for decades that oxidants promote AF synthesis. More recent evidence has indicated that AF synthesis is controlled at the transcriptional level: reactive species that accumulate in fungal cells in the stationary growth phase modulate the expression of aflR, the main regulator of AF synthesis—through the oxidative stress related transcription factor AP-1. Thus, AFs are largely synthesized and secreted when (i) the fungus has exploited most nutritional resources; (ii) the hyphal density is high; and (iii) reactive species are abundant in the environment. In this study, we show that AFs efficiently scavenge peroxides and extend the lifespan of E. coli grown under oxidative stress conditions. We hypothesize a novel role for AF as an antioxidant and suggest its biological purpose is to extend the lifespan of AFs-producing strains of Aspergillus sect. Flavi under highly oxidizing conditions such as when substrate resources are depleted, or within a host.
Highlights
The role of aflatoxins (AFs) in the biology of producing strains, Aspergillus sect
We show that AFs efficiently scavenge peroxides and extend the lifespan of E. coli grown under oxidative stress conditions
To assess the relation between AF synthesis and oxygen content, we set up experiments under two growth conditions: a closed system (CS) and an open system (OS)
Summary
The role of aflatoxins (AFs) in the biology of producing strains, Aspergillus sect. Flavi, is still a matter of debate. More recent evidence has indicated that AF synthesis is controlled at the transcriptional level: reactive species that accumulate in fungal cells in the stationary growth phase modulate the expression of aflR, the main regulator of AF synthesis—through the oxidative stress related transcription factor AP-1. A recent study[11] highlighted how “secondary ROS” produced during the enzymatic steps of AF synthesis may regulate the fitness of A. parasiticus It is still an open debate whether AF can benefit the producer itself[4], since among natural populations almost 50% of A. flavus and 10% of A. parasiticus do not produce AF at a ll[12]. Starting from the observation that oxygen and its reactive species represent an input for AF synthesis, we tested the hypothesis that AF acts as an antioxidant and could favor the survival of A. parasiticus in highly oxidizing environments. To the best of our knowledge, the intrinsic antioxidant features of AFs are here reported for the first time
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