A Stress Hub in Scedosporium apiospermum: The High Osmolarity Glycerol (HOG) Pathway

Kinases and phosphatases Pub Date : 2022-11-21 DOI:10.3390/kinasesphosphatases1010002

Hajar Yaakoub, S. Mina, A. Marot, N. Papon, A. Calenda, J. Bouchara

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引用次数: 2

Abstract

Scedosporium species are opportunistic filamentous fungi found in human-impacted areas. Clinically relevant species, such as S. apiospermum, rank as the second most frequent colonizers of the airways of patients with cystic fibrosis (CF), which are characterized by persistent oxidative stress. This raises the question of how Scedosporium species abate conditions imposed in hostile environments. Since the High Osmolarity Glycerol (HOG) pathway plays a central role in fungal adaptation to stress, we aimed to pheno-profile the involvement of the pathway in response to stress in S. apiospermum using Western blot. We show for the first time that a wide range of stress distinctively activates the HOG pathway in S. apiospermum, including oxidants (H2O2, menadione, cumene hydroperoxide, diamide, paraquat, and honokiol), osmotic agents (sorbitol and KCl), cell-wall stress agents (caffeine, calcofluor white, and Congo Red), heavy metals (cadmium and arsenite), fungicides (fludioxonil and iprodione), antifungals (voriconazole and amphotericin B), and acid stress (pH 4). We suggest that the function of the HOG pathway as a general stress regulator is also conserved in S. apiospermum.

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高渗透压甘油(HOG)途径:高渗透压甘油(HOG)途径

丝状真菌是在人类影响地区发现的机会性丝状真菌。临床相关物种，如顶孢链球菌，是囊性纤维化(CF)患者气道的第二大常见菌，其特征是持续的氧化应激。这就提出了一个问题，即隐孢子菌是如何在恶劣的环境中减轻条件的。由于高渗透压甘油(HOG)途径在真菌适应胁迫中起着核心作用，我们旨在利用Western blot对该途径在顶孢葡萄球菌(S. apiospermum)对胁迫的响应进行表型分析。我们首次发现，广泛的胁迫可明显激活顶孢霉的HOG通路，包括氧化剂(H2O2、甲萘醌、异丙苯氢过氧化氢、二胺、百草枯和厚木酚)、渗透剂(山梨醇和KCl)、细胞壁应激剂(咖啡因、钙氟白和刚果红)、重金属(镉和亚砷酸盐)、杀菌剂(氟恶菌腈和异丙二酮)、抗真菌剂(伏立康唑和两性霉素B)、我们认为，HOG途径作为一种一般的应激调节机制，在尖孢葡萄中也具有保守的功能。

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Kinases and phosphatases

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