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CCPG1 recognizes endoplasmic reticulum luminal proteins for selective ER-phagy

Shunsuke Ishii, Haruka Chino, Koji L. Ode, Yoshitaka Kurikawa, Hiroki R. Ueda, Akira Matsuura, Noboru Mizushima, Eisuke Itakura

2023Molecular Biology of the Cell28 citationsDOIOpen Access PDF

Abstract

The endoplasmic reticulum (ER) is a major cell compartment where protein synthesis, folding, and posttranslational modifications occur with assistance from a wide variety of chaperones and enzymes. Quality control systems selectively eliminate abnormal proteins that accumulate inside the ER due to cellular stresses. ER-phagy, that is, selective autophagy of the ER, is a mechanism that maintains or reestablishes cellular and ER-specific homeostasis through removal of abnormal proteins. However, how ER luminal proteins are recognized by the ER-phagy machinery remains unclear. Here, we applied the aggregation-prone protein, six-repeated islet amyloid polypeptide (6xIAPP), as a model ER-phagy substrate and found that cell cycle progression 1 (CCPG1), which is an ER-phagy receptor, efficiently mediates its degradation via ER-phagy. We also identified prolyl 3-hydroxylase family member 4 (P3H4) as an endogenous cargo of CCPG1-dependent ER-phagy. The ER luminal region of CCPG1 contains several highly conserved regions that we refer to as cargo-interacting regions (CIRs); these interact directly with specific luminal cargos for ER-phagy. Notably, 6xIAPP and P3H4 interact directly with different CIRs. These findings indicate that CCPG1 is a bispecific ER-phagy receptor for ER luminal proteins and the autophagosomal membrane that contributes to the efficient removal of aberrant ER-resident proteins through ER-phagy.

Topics & Concepts

Endoplasmic reticulumCell biologyBiologyReceptorAutophagyMembrane proteinBiochemistryMembraneApoptosisEndoplasmic Reticulum Stress and DiseaseAutophagy in Disease and TherapyCellular transport and secretion
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