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Mapping the mammalian ribosome quality control complex interactome using proximity labeling approaches.

Mol. Biol. Cell. 2018 May 15;29(10):1258-1269. Epub 2018 Mar 22
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摘要


Previous genetic and biochemical studies from Saccharomyces cerevisiae have identified a critical ribosome-associated quality control complex that facilitates resolution of stalled ribosomal complexes. While components of the mammalian have been examined in vitro, a systematic characterization of duanyu1745C protein interactions in mammalian cells has yet to be described. Here we utilize both proximity-labeling proteomic approaches, BioID and APEX, and traditional affinity-based strategies to both identify interacting proteins of mammalian duanyu1745C members and putative substrates for the duanyu1745C resident E3 ligase, Ltn1. Surprisingly, validation studies revealed that a subset of substrates are ubiquitylated by Ltn1 in a regulatory manner that does not result in subsequent substrate degradation. We demonstrate that Ltn1 catalyzes the regulatory ubiquitylation of ribosomal protein S6 kinase 1 and 2 (RPS6KA1, RPS6KA3). Further, loss of Ltn1 function results in hyperactivation of RSK1/2 signaling without impacting RSK1/2 protein turnover. These results suggest that Ltn1-mediated RSK1/2 ubiquitylation is inhibitory and establishes a new role for Ltn1 in regulating mitogen-activated kinase signaling via regulatory RSK1/2 ubiquitylation. Taken together, our results suggest that mammalian duanyu1745C interactions are difficult to observe and may be more transient than the homologous complex in S. cerevisiae and that Ltn1 has functions.

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