Convergence of mammalian RQC and C-end rule proteolytic pathways via alanine tailing

Incompletely synthesized nascent chains obstructing large ribosomal subunits are targeted for degradation by ribosome-associated quality control (RQC). In bacterial RQC, RqcH marks the nascent chains with C-terminal alanine (Ala) tails that are directly recognized by proteasome-like proteases, whereas in eukaryotes, RqcH orthologs (Rqc2/NEMF [nuclear export mediator factor]) assist the Ltn1/Listerin E3 ligase in nascent chain ubiquitylation. Here, we study RQC-mediated proteolytic targeting of ribosome stalling products in mammalian cells. We show that mammalian NEMF has an additional, Listerin-independent proteolytic role, which, as in bacteria, is mediated by tRNA-Ala binding and Ala tailing. However, in mammalian cells Ala tails signal proteolysis indirectly, through a pathway that recognizes C-terminal degrons; we identify the CRL2(KLHDC10) E3 ligase complex and the novel C-end rule E3, Pirh2/Rchy1, as bona fide RQC pathway components that directly bind to Ala-tailed ribosome stalling products and target them for degradation. As Listerin mutation causes neurodegeneration in mice, functionally redundant E3s may likewise be implicated in molecular mechanisms of neurodegeneration.

Automated summary

This study reveals the mechanism of RQC-mediated proteolytic targeting of ribosome stalling products in mammalian cells, showing that NEMF has an additional Listerin-independent role and identifying CRL2(KLHDC10) E3 ligase complex and Pirh2/Rchy1 as key components in this pathway. These findings suggest that functionally redundant E3s may play a role in neurodegeneration mechanisms, similar to the impact of Listerin mutation in mice.