Arisa Murakami scite author profile

Ubiquitination functions as a signal to recruit autophagic machinery to damaged organelles and induce their clearance. Here, we report the characterization of FBXO27, a glycoprotein-specific F-box protein that is part of the SCF (SKP1/CUL1/F-box protein) ubiquitin ligase complex, and demonstrate that SCFFBXO27 ubiquitinates glycoproteins in damaged lysosomes to regulate autophagic machinery recruitment. Unlike F-box proteins in other SCF complexes, FBXO27 is subject to N-myristoylation, which localizes it to membranes, allowing it to accumulate rapidly around damaged lysosomes. We also screened for proteins that are ubiquitinated upon lysosomal damage, and identified two SNARE proteins, VAMP3 and VAMP7, and five lysosomal proteins, LAMP1, LAMP2, GNS, PSAP, and TMEM192. Ubiquitination of all glycoproteins identified in this screen increased upon FBXO27 overexpression. We found that the lysosomal protein LAMP2, which is ubiquitinated preferentially on lysosomal damage, enhances autophagic machinery recruitment to damaged lysosomes. Thus, we propose that SCFFBXO27 ubiquitinates glycoproteins exposed upon lysosomal damage to induce lysophagy.

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A comprehensive method for detecting ubiquitinated substrates using TR-TUBE

Yoshida¹,

Saeki²,

Murakami³

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

104

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The identification of substrates for ubiquitin ligases has remained challenging, because most substrates are either immediately degraded by the proteasome or processed by deubiquitinating enzymes (DUBs) to remove polyubiquitin. Although a methodology that enables detection of ubiquitinated proteins using ubiquitin Lys-e-Gly-Gly (diGly) remnant antibodies and MS has been developed, it is still insufficient for identification and characterization of the ubiquitin-modified proteome in cells overexpressing a particular ubiquitin ligase. Here, we show that exogenously expressed trypsin-resistant tandem ubiquitin-binding entity(ies) (TR-TUBE) protect polyubiquitin chains on substrates from DUBs and circumvent proteasome-mediated degradation in cells. TR-TUBE effectively associated with substrates ubiquitinated by an exogenously overexpressed ubiquitin ligase, allowing detection of the specific activity of the ubiquitin ligase and isolation of its substrates. Although the diGly antibody enabled effective identification of ubiquitinated proteins in cells, overexpression of an ubiquitin ligase and treatment with a proteasome inhibitor did not increase the level of diGly peptides specific for the ligase relative to the background level of diGly peptides, probably due to deubiquitination. By contrast, in TR-TUBE-expressing cells, the level of substrate-derived diGly peptides produced by the overexpressed ubiquitin ligase was significantly elevated. We developed a method for identifying the substrates of specific ubiquitin ligases using two enrichment strategies, TR-TUBE and diGly remnant antibodies, coupled with MS. Using this method, we identified target substrates of FBXO21, an uncharacterized F-box protein.ubiquitin-binding protein | ubiquitin ligase | ubiquitination

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Loss of peptide: N -glycanase causes proteasome dysfunction mediated by a sugar-recognizing ubiquitin ligase

Yoshida

Amaki

Murakami

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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Mutations in the human peptide:N-glycanase gene (NGLY1), which encodes a cytosolic de–N-glycosylating enzyme, cause a congenital autosomal recessive disorder. In rodents, the loss of Ngly1 results in severe developmental delay or lethality, but the underlying mechanism remains unknown. In this study, we found that deletion of Fbxo6 (also known as Fbs2), which encodes a ubiquitin ligase subunit that recognizes glycoproteins, rescued the lethality-related defects in Ngly1-KO mice. In NGLY1-KO cells, FBS2 overexpression resulted in the substantial inhibition of proteasome activity, causing cytotoxicity. Nuclear factor, erythroid 2–like 1 (NFE2L1, also known as NRF1), an endoplasmic reticulum–associated transcriptional factor involved in expression of proteasome subunits, was also abnormally ubiquitinated by SCFFBS2 in NGLY1-KO cells, resulting in its retention in the cytosol. However, the cytotoxicity caused by FBS2 was restored by the overexpression of “glycan-less” NRF1 mutants, regardless of their transcriptional activity, or by the deletion of NRF1 in NGLY1-KO cells. We conclude that the proteasome dysfunction caused by the accumulation of N-glycoproteins, primarily NRF1, ubiquitinated by SCFFBS2 accounts for the pathogenesis resulting from NGLY1 deficiency.

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A Neural-specific F-box Protein Fbs1 Functions as a Chaperone Suppressing Glycoprotein Aggregation

Yoshida

Murakami

Iwaï

et al. 2007

Journal of Biological Chemistry

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Arisa Murakami

Ubiquitination of exposed glycoproteins by SCF ^FBXO27 directs damaged lysosomes for autophagy

A comprehensive method for detecting ubiquitinated substrates using TR-TUBE

Loss of peptide: N -glycanase causes proteasome dysfunction mediated by a sugar-recognizing ubiquitin ligase

A Neural-specific F-box Protein Fbs1 Functions as a Chaperone Suppressing Glycoprotein Aggregation

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Arisa Murakami

Ubiquitination of exposed glycoproteins by SCF FBXO27 directs damaged lysosomes for autophagy

A comprehensive method for detecting ubiquitinated substrates using TR-TUBE

Loss of peptide: N -glycanase causes proteasome dysfunction mediated by a sugar-recognizing ubiquitin ligase

A Neural-specific F-box Protein Fbs1 Functions as a Chaperone Suppressing Glycoprotein Aggregation

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Product

Resources

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Ubiquitination of exposed glycoproteins by SCF ^FBXO27 directs damaged lysosomes for autophagy