Regulatory effects of nitric oxide on reproduction and melanin biosynthesis in onion pathogenic fungus Stemphylium eturmiunum

Yanxia Zhao,Wenwen Yuan,Mengni Sun,Xiuguo Zhang,Weifa Zheng

doi:10.1016/j.funbio.2021.01.010

Yanxia Zhao, Wenwen Yuan + Show 3 more

Open Access

https://doi.org/10.1016/j.funbio.2021.01.010

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Abstract

The formation of propagules is the critical stage for transmission of the pathogenic fungus Stemphylium eturmiunum. However, how the development of these propagules is regulated remains to be fully understood. Here, we show that nitric oxide (NO) is necessary for reproduction in S. eturmiunum.Application of NO scavenger carboxy-CPTIO (cPTIO) or soluble guanylate cyclase (sGC) inhibitor NS-2028 abolishes propagules formation, which was increased by a supplement of sodium nitroprusside (SNP). SNP supplement also triggered increased biosynthesis of melanin, which can be inhibited upon the addition of arbutin or tricyclazole, the specific inhibitors for DOPA and DHN synthetic pathway, respectively. Intriguingly, enhanced melanin biosynthesis corelates with an increased propagules formation; The SNP-induced increment propagules formation can be also compromised upon the supplement of cPTIO or NS-2028. RT-PCR analysis showed that SNP promoted transcription of brlA, abA and wetA at 0.2 mmol/L, but inhibited at 2 mmol/L. In contrast, SNP increased transcription of mat1, and mat2, and the synthetic genes for DHN and DOPA melanins at 2 mmol/L. However, the increased transcription of these genes is down-regulated upon the supplement of cPTIO or NS-2028. Thus, NO regulates reproduction and melanin synthesis in S. eturmiunum possibly through the NO-sGC-GMP signaling pathway.

Highlights

The foliar fungal pathogen Stemphylium eturmiunum is a homothallic filamentous ascomycete causing severe leaf blight of onions (Fernandez and Rivera-vargas 2008)
In our previous attempts to unravel the regulatory mechanisms for sexual development of S. eturmiunum, we found that treatment of the fungus with 5-AC resulted in the formation albinism phenotype and the silence of the genes responsible for melanins synthesis in addition to magl
To probe how nitric oxide (NO) regulates the development of filamentous fungi, we conducted the culture of onion pathogenic S. eturmiunum by supplementing sodium nitroprusside (SNP)

Summary

Introduction

The foliar fungal pathogen Stemphylium eturmiunum is a homothallic filamentous ascomycete causing severe leaf blight of onions (Fernandez and Rivera-vargas 2008). S. eturmiunum is a postharvest spoiler of fresh tomatoes (Andersen and Frisvad 2004; Trinetta et al 2013). S. eturmiunum develops asexual conidiophores for conidiation, and sexual fruiting bodies pseudothecia for producing ascospore (Simmons 2001). The conidial cell wall, directly in contact with host cells, consists of melanins in addition to the presence of a-(1,3)-glucan and proteinaceous rodlets. The presence of melanins in conidial cell wall confers the resistance to the attack of free radicals from host organisms, which, in turn, increases their pathogenicity for effective infection and transmission (Chamilos and Carvalho 2020; Amin et al 2014; Cunha et al 2010). The involvements of melanin in the construction of conidia and pseudothecia endow the resistance of fungi against environmental insults and the effective infection and transmission (Pal et al 2014)

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