Two aminopeptidase I homologs convergently contribute to pathobiology of fungal entomopathogen Beauveria bassiana via divergent physiology-dependent autophagy pathways for vacuolar targeting

IF 11.4 1区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Journal of Advanced Research Pub Date : 2024-05-01 DOI:10.1016/j.jare.2023.06.007

Jin-Li Ding, Kang Wei, Ming-Guang Feng, Sheng-Hua Ying

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Abstract

Introduction

In yeast, the cytoplasm-to-vacuole targeting (Cvt) pathway acts as a biosynthetic autophagy-related process, in which vacuolar targeting of hydrolase is mediated by the machineries involved in the selective autophagy. However, the mechanistic insights into vacuolar targeting of hydrolases through the selective autophagy pathway still remain enigmatic in filamentous fungi.

Objectives

Our study aims to investigate the mechanisms involved in vacuolar targeting of hydrolases in filamentous fungi.

Methods

The filamentous entomopathogenic fungus Beauveria bassiana was used as a representative of filamentous fungi. We identified the homologs of yeast aminopeptidase I (Ape1) in B. bassiana by bioinformatic analyses and characterized their physiological roles by gene function analyses. Pathways for vacuolar targeting of hydrolases were investigated via molecular trafficking analyses.

Results

B. bassiana has two homologs of yeast aminopeptidase I (Ape1) which are designated as BbApe1A and BbApe1B. The two homologs of yeast Ape1 contribute to starvation tolerance, development, and virulence in B. bassiana. Significantly, BbNbr1 acts as a selective autophagy receptor to mediate the vacuolar targeting of the two Ape1 proteins, in which BbApe1B interacts with BbNbr1 also directly interacting with BbAtg8, and BbApe1A has an additional requirement of the scaffold protein BbAtg11 that interacts with BbNbr1 and BbAtg8. Protein processing occurs at both terminuses of BbApe1A and only at carboxyl terminus of BbApe1B, which is also dependent on the autophagy-related proteins. Together, the functions and translocation processes of the two Ape1 proteins are associated with autophagy in fungal lifecycle.

Conclusion

This study reveals the functions and translocation processes for vacuolar hydrolases in the insect-pathogenic fungi and improves our understandings of the Nbr1-mediated vacuolar targeting pathway in the filamentous fungi.

Abstract Image

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两种氨肽酶 I 同源物通过不同的生理依赖性自噬途径对真菌昆虫病原体 Beauveria bassiana 的病理生物学做出趋同贡献，从而实现空泡靶向作用

引言在酵母菌中，细胞质到液泡靶向（Cvt）途径是一个与生物合成自噬相关的过程，其中水解酶的液泡靶向由参与选择性自噬的机制介导。方法以丝状昆虫病原真菌 Beauveria bassiana 为丝状真菌的代表。我们通过生物信息学分析确定了 B. bassiana 中酵母氨基肽酶 I（Ape1）的同源物，并通过基因功能分析鉴定了它们的生理作用。结果B. bassiana 有两个酵母氨基肽酶 I（Ape1）的同源物，分别被命名为 BbApe1A 和 BbApe1B。酵母 Ape1 的两个同源物有助于 B. bassiana 的耐饥饿性、发育和毒力。值得注意的是，BbNbr1 作为一种选择性自噬受体，介导两种 Ape1 蛋白的液泡靶向作用，其中 BbApe1B 与 BbNbr1 相互作用的同时也直接与 BbAtg8 相互作用，而 BbApe1A 还需要与 BbNbr1 和 BbAtg8 相互作用的支架蛋白 BbAtg11。蛋白加工发生在 BbApe1A 的两个末端，而 BbApe1B 仅发生在羧基末端，它也依赖于自噬相关蛋白。总之，两种 Ape1 蛋白的功能和转运过程都与真菌生命周期中的自噬有关。结论：这项研究揭示了昆虫致病真菌中液泡水解酶的功能和转运过程，加深了我们对丝状真菌中 Nbr1 介导的液泡靶向途径的理解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Advanced Research Multidisciplinary-Multidisciplinary

CiteScore

21.60

自引率

0.90%

发文量

280

审稿时长

12 weeks

期刊介绍： Journal of Advanced Research (J. Adv. Res.) is an applied/natural sciences, peer-reviewed journal that focuses on interdisciplinary research. The journal aims to contribute to applied research and knowledge worldwide through the publication of original and high-quality research articles in the fields of Medicine, Pharmaceutical Sciences, Dentistry, Physical Therapy, Veterinary Medicine, and Basic and Biological Sciences. The following abstracting and indexing services cover the Journal of Advanced Research: PubMed/Medline, Essential Science Indicators, Web of Science, Scopus, PubMed Central, PubMed, Science Citation Index Expanded, Directory of Open Access Journals (DOAJ), and INSPEC.