State Key Laboratory of Agricultural Microbiology, Huazhong Agricultural Universitygrid.35155.37, Wuhan, Hubei Province, China.
Hubei Key Laboratory of Plant Pathology, College of Plant Science and Technology, Huazhong Agricultural Universitygrid.35155.37, Wuhan, Hubei Province, China.
mBio. 2021 Dec 21;12(6):e0317321. doi: 10.1128/mBio.03173-21.
Proper protein secretion is critical for fungal development and pathogenesis. However, the potential roles of proteins involved in the early secretory pathway are largely undescribed in filamentous fungi. p24 proteins are cargo receptors that cycle between the endoplasmic reticulum (ER) and Golgi apparatus in the early secretory pathway and recruit cargo proteins to nascent vesicles. This study characterized the function of two p24 family proteins (SsEmp24 and SsErv25) in a phytopathogenic fungus, Sclerotinia sclerotiorum. Both and were upregulated during the early stages of infection. Δ mutant and Δ mutant displayed abnormal vegetative growth and sclerotium formation, were defective in infection cushion formation, and showed lower virulence on host plants. Δ mutant had a more severe abnormal phenotype than Δ mutant, implying that SsEmp24 could play a central role in the early secretory pathway. Similar to their counterparts, SsEmp24 interacted with SsErv25 and predominantly colocalized in the ER or nuclear envelope. The absence of SsEmp24 or SsErv25 led to defective in protein secretion in , including the pathogenicity-related extracellular hydrolytic enzymes and effectors. It is proposed that SsEmp24 and SsErv25, components in the early secretory pathway, are involved in modulating morphogenesis and pathogenicity in by mediating protein secretion. Understanding the reproduction and pathogenesis mechanism of phytopathogens could provide new opinions to effectively control fungal diseases. Although it has been known that effectors and extracellular hydrolytic enzymes secreted by phytopathogenic fungi play important roles in fungus-host interactions, the secretion system for the delivery of virulence factors to the host is still largely undescribed. Although the role of the early secretory pathway-associated p24 proteins in S. cerevisiae has been well characterized, the function of these proteins in filamentous fungi was scarcely known prior to this study. The present research provides evidence that p24 proteins participate in the reproduction and pathogenesis of phytopathogenic fungi through the mediation of protein secretion. This research advances our understanding of p24 proteins in filamentous phytopathogenic fungi. In addition, the candidate cargos of the two p24 proteins, SsEmp24 and SsErv25, were screened out by comparative proteomics, which could aid the identification of novel development and virulence-associated factors in phytopathogenic fungi.
蛋白质的正确分泌对真菌的发育和发病机制至关重要。然而,丝状真菌中早期分泌途径中涉及的蛋白质的潜在作用在很大程度上仍未被描述。p24 蛋白是货物受体,在早期分泌途径中在内质网(ER)和高尔基体之间循环,并将货物蛋白募集到新生小泡。本研究在一种植物病原真菌,核盘菌中,对两个 p24 家族蛋白(SsEmp24 和 SsErv25)的功能进行了表征。和在感染早期均上调。Δ突变体和Δ突变体表现出异常的营养生长和菌核形成,感染垫形成缺陷,对宿主植物的毒力降低。Δ突变体的异常表型比Δ突变体更严重,这意味着 SsEmp24 可能在早期分泌途径中发挥核心作用。与它们的对应物相似,SsEmp24 与 SsErv25 相互作用,并主要在 ER 或核膜中共定位。SsEmp24 或 SsErv25 的缺失导致在中蛋白质分泌缺陷,包括与致病性相关的细胞外水解酶和效应子。据推测,早期分泌途径中的成分 SsEmp24 和 SsErv25 通过调节蛋白质分泌参与调节形态发生和致病性。 了解植物病原真菌的繁殖和发病机制可以为有效控制真菌病提供新的观点。尽管已经知道植物病原真菌分泌的效应子和细胞外水解酶在真菌-宿主相互作用中起着重要作用,但将毒力因子输送到宿主的分泌系统在很大程度上仍未被描述。尽管 S. cerevisiae 中与早期分泌途径相关的 p24 蛋白的作用已经得到很好的描述,但在本研究之前,这些蛋白在丝状真菌中的功能几乎未知。本研究提供的证据表明,p24 蛋白通过调节蛋白质分泌参与植物病原真菌的繁殖和发病。本研究增进了我们对丝状植物病原真菌中 p24 蛋白的认识。此外,通过比较蛋白质组学筛选出了两个 p24 蛋白,SsEmp24 和 SsErv25 的候选货物,这有助于鉴定植物病原真菌中新的发育和毒力相关因子。
