Institute of Molecular Plant Biology, Department of Applied Genetics and Cell Biology, University of Natural Resources and Life Sciences, Vienna (BOKU), Muthgasse 18, 1190 Vienna, Austria.
Institute of Molecular Plant Biology, Department of Applied Genetics and Cell Biology, University of Natural Resources and Life Sciences, Vienna (BOKU), Muthgasse 18, 1190 Vienna, Austria.
Mol Plant. 2020 May 4;13(5):717-731. doi: 10.1016/j.molp.2020.02.012. Epub 2020 Feb 19.
Protein abundance and localization at the plasma membrane (PM) shapes plant development and mediates adaptation to changing environmental conditions. It is regulated by ubiquitination, a post-translational modification crucial for the proper sorting of endocytosed PM proteins to the vacuole for subsequent degradation. To understand the significance and the variety of roles played by this reversible modification, the function of ubiquitin receptors, which translate the ubiquitin signature into a cellular response, needs to be elucidated. In this study, we show that TOL (TOM1-like) proteins function in plants as multivalent ubiquitin receptors, governing ubiquitinated cargo delivery to the vacuole via the conserved Endosomal Sorting Complex Required for Transport (ESCRT) pathway. TOL2 and TOL6 interact with components of the ESCRT machinery and bind to K63-linked ubiquitin via two tandemly arranged conserved ubiquitin-binding domains. Mutation of these domains results not only in a loss of ubiquitin binding but also altered localization, abolishing TOL6 ubiquitin receptor activity. Function and localization of TOL6 is itself regulated by ubiquitination, whereby TOL6 ubiquitination potentially modulates degradation of PM-localized cargoes, assisting in the fine-tuning of the delicate interplay between protein recycling and downregulation. Taken together, our findings demonstrate the function and regulation of a ubiquitin receptor that mediates vacuolar degradation of PM proteins in higher plants.
质膜(PM)上的蛋白质丰度和定位决定了植物的发育,并介导了对环境变化的适应。它受泛素化的调节,泛素化是一种对质膜内陷蛋白正确分拣到液泡进行后续降解至关重要的翻译后修饰。为了理解这种可逆修饰的重要性和多样性,需要阐明泛素受体的功能,泛素受体将泛素信号转化为细胞反应。在这项研究中,我们表明,TOL(TOM1 样)蛋白在植物中作为多价泛素受体发挥作用,通过保守的内体分选复合物需要运输(ESCRT)途径来控制泛素化货物向液泡的输送。TOL2 和 TOL6 与 ESCRT 机器的组件相互作用,并通过两个串联排列的保守泛素结合结构域结合到 K63 连接的泛素上。这些结构域的突变不仅导致泛素结合的丧失,而且导致定位改变,从而使 TOL6 泛素受体活性丧失。TOL6 的功能和定位本身也受到泛素化的调节,其中 TOL6 泛素化可能调节质膜定位货物的降解,有助于微调蛋白质回收和下调之间的微妙相互作用。总之,我们的研究结果表明,泛素受体介导高等植物质膜蛋白的液泡降解,其功能和调节作用得到了证实。
