Molecular mechanisms of ESCRT-mediated autophagosome maturation in plants.

Niccolò Mosesso, Erika Isono
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Abstract

Diverse environmental stress factors affect the functionality of proteins and membrane compartments within cells causing potentially irremediable damage to the cell. A major process to eliminate nonfunctional molecular aggregates or damaged organelles under stress conditions is macroautophagy/autophagy, thus making its regulation critical for cellular adaptation and survival. The formation of autophagosomes is coordinated by a wide range of cellular factors and culminates in the closure of the cup-shaped double membrane or phagophore. The endosomal sorting complex required for transport (ESCRT) machinery has been proposed to mediate the sealing of the autophagic membranes. However, the molecular basis for ESCRT recruitment to phagophores under stress conditions are not yet fully understood. We recently described the role of ALIX (ALG-2 interacting protein-X) and its interactor CALB1 (Ca2+-dependent Lipid Binding protein 1) in autophagosome maturation during salt stress in Arabidopsis. Our study shows that CALB1 is important for phagophore closure and thus to the subsequent delivery to the vacuole. CALB1 localizes on salt-induced phagophores together with ALIX. CALB1 stimulates the phase separation of ALIX, which can facilitate the further ESCRT recruitment to phagophore membranes.

escrt介导植物自噬体成熟的分子机制
各种环境应激因素会影响细胞内蛋白质和膜区的功能,从而对细胞造成潜在的无法弥补的损害。在应激条件下,消除无功能分子聚集体或受损细胞器的一个主要过程是大自噬/自噬,因此对它的调控对细胞的适应和存活至关重要。自噬体的形成受多种细胞因子的协调,最终导致杯状双层膜或吞噬体的闭合。运输所需的内体分拣复合体(ESCRT)机制被认为是自噬膜封闭的中介。然而,在应激条件下,ESCRT 招募到吞噬体的分子基础尚未完全清楚。我们最近描述了 ALIX(ALG-2 互作蛋白-X)及其互作因子 CALB1(Ca2+ 依赖性脂质结合蛋白 1)在拟南芥盐胁迫期间自噬体成熟过程中的作用。我们的研究表明,CALB1 对于吞噬体的闭合以及随后向液泡的输送非常重要。CALB1 与 ALIX 一起定位于盐诱导的吞噬体上。CALB1 可刺激 ALIX 的相分离,从而促进 ESCRT 进一步招募到吞噬体膜上。
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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