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Heteromeric clusters of ubiquitinated ER-shaping proteins drive ER-phagy

Hector Foronda, Yangxue Fu, Adriana Covarrubias‐Pinto, Hartmut T. Bocker, Alexis González, Eric Seemann, Patricia Franzka, Andrea Bock, Ramachandra M. Bhaskara, Lutz Liebmann, Marina E. Hoffmann, István Katona, Nicole Koch, Joachim Weis, Ingo Kurth, Joseph G. Gleeson, Fulvio Reggiori, Gerhard Hummer, Michael M. Kessels, Britta Qualmann, Muriel Mari, Ivan Đikić, Christian A. Hübner

2023Nature86 citationsDOIOpen Access PDF

Abstract

Abstract Membrane-shaping proteins characterized by reticulon homology domains play an important part in the dynamic remodelling of the endoplasmic reticulum (ER). An example of such a protein is FAM134B, which can bind LC3 proteins and mediate the degradation of ER sheets through selective autophagy (ER-phagy) 1 . Mutations in FAM134B result in a neurodegenerative disorder in humans that mainly affects sensory and autonomic neurons 2 . Here we report that ARL6IP1, another ER-shaping protein that contains a reticulon homology domain and is associated with sensory loss 3 , interacts with FAM134B and participates in the formation of heteromeric multi-protein clusters required for ER-phagy. Moreover, ubiquitination of ARL6IP1 promotes this process. Accordingly, disruption of Arl6ip1 in mice causes an expansion of ER sheets in sensory neurons that degenerate over time. Primary cells obtained from Arl6ip1 -deficient mice or from patients display incomplete budding of ER membranes and severe impairment of ER-phagy flux. Therefore, we propose that the clustering of ubiquitinated ER-shaping proteins facilitates the dynamic remodelling of the ER during ER-phagy and is important for neuronal maintenance.

Topics & Concepts

Endoplasmic reticulumCell biologyAutophagyUbiquitinChemistryMembrane proteinBiologyNeuroscienceGeneBiochemistryMembraneApoptosisEndoplasmic Reticulum Stress and DiseaseAutophagy in Disease and TherapyCellular transport and secretion