ADP-ribosylation factor machinery mediates endocytosis in plant cells

Satoshi Naramoto, Jürgen Kleine-Vehn, Stéphanie Robert, Masaru Fujimoto, Tomoko Dainobu, Tomasz Paciorek, Takashi Ueda, Akihiko Nakano, Marc C.E. Van Montagu, Hiroo Fukuda, Jiří Friml

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    Endocytosis is crucial for various cellular functions and development of multicellular organisms. In mammals and yeast, ADP-ribosylation factor (ARF) GTPases, key components of vesicle formation, and their regulators ARF-guanine nucleotide exchange factors (GEFs) and ARF-GTPase-activating protein (GAPs) mediate endocytosis. A similar role has not been established in plants,mainly because of the lack of the canonical ARF and ARF-GEF components that are involved in endocytosis in other eukaryotes. In this study, we revealed a regulatory mechanism of endocytosis in plants based on ARF GTPase activity.Weidentified that ARF-GEFGNOMand ARF-GAP VASCULAR NETWORK DEFECTIVE 3 (VAN3), both of which are involved in polar auxin transport-dependent morphogenesis, localize at the plasma membranes as well as in intracellular structures. Variable angle epifluorescence microscopy revealed that GNOM and VAN3 localize to partially overlapping discrete foci at the plasmamembranes that are regularly associated with the endocytic vesicle coat clathrin. Genetic studies revealed that GNOM and VAN3 activities are required for endocytosis and internalization of plasma membrane proteins, including PIN-FORMED auxin transporters. These findings identified ARF GTPase-based regulatory mechanisms for endocytosis in plants. GNOMand VAN3 previously were proposed to function solely at the recycling endosomes and trans-Golgi networks, respectively. Therefore our findings uncovered an additional cellular function of these prominent developmental regulators.

    Original languageEnglish
    Pages (from-to)21890-21895
    Number of pages6
    JournalProceedings of the National Academy of Sciences of the United States of America
    Issue number50
    Publication statusPublished - 2010 Dec 14


    • Plant development
    • Polarity
    • Vesicle trafficking

    ASJC Scopus subject areas

    • General

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