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Failure to Degrade CAT-Tailed Proteins Disrupts Neuronal Morphogenesis and Cell Survival

Tsuyoshi Udagawa, Moeka Seki, Taku Okuyama, Shungo Adachi, Tohru Natsume, Takuya Noguchi, Atsushi Matsuzawa, Toshifumi Inada

2021Cell Reports67 citationsDOIOpen Access PDF

Abstract

Ribosome-associated quality control (RQC) relieves stalled ribosomes and eliminates potentially toxic nascent polypeptide chains (NCs) that can cause neurodegeneration. During RQC, RQC2 modifies NCs with a C-terminal alanine and threonine (CAT) tail. CAT tailing promotes ubiquitination of NCs for proteasomal degradation, while RQC failure in budding yeast disrupts proteostasis via CAT-tailed NC aggregation. However, the CAT tail and its cytotoxicity in mammals have remained largely uncharacterized. We demonstrate that NEMF, a mammalian RQC2 homolog, modifies translation products of nonstop mRNAs, major erroneous mRNAs in mammals, with a C-terminal tail mainly composed of alanine with several other amino acids. Overproduction of nonstop mRNAs induces NC aggregation and caspase-3-dependent apoptosis and impairs neuronal morphogenesis, which are ameliorated by NEMF depletion. Moreover, we found that homopolymeric alanine tailing at least partially accounts for CAT-tail cytotoxicity. These findings explain the cytotoxicity of CAT-tailed NCs and demonstrate physiological significance of RQC on proper neuronal morphogenesis and cell survival.

Topics & Concepts

Cell biologyRibosomeBiologyUbiquitinCytotoxicityTranslation (biology)NeurodegenerationMorphogenesisProteostasisBiochemistryMessenger RNARNAIn vitroGeneDiseasePathologyMedicineRNA modifications and cancerRNA Research and SplicingRNA and protein synthesis mechanisms
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