Ido Livneh scite author profile

The ubiquitin-proteasome system and autophagy are the two main proteolytic systems involved in, among other functions, the maintenance of cell integrity by eliminating misfolded and damaged proteins and organelles. Both systems remove their targets after their conjugation with ubiquitin. An interesting, yet incompletely understood problem relates to the fate of the components of the two systems. Here we provide evidence that amino acid starvation enhances polyubiquitination on specific sites of the proteasome, a modification essential for its targeting to the autophagic machinery. The uptake of the ubiquitinated proteasome is mediated by its interaction with the ubiquitin-associated domain of p62/SQSTM1, a process that also requires interaction with LC3. Importantly, deletion of the PB1 domain of p62, which is important for the targeting of ubiquitinated substrates to the proteasome, has no effect on stressinduced autophagy of this proteolytic machinery, suggesting that the domain of p62 that binds to the proteasome determines the function of p62 in either targeting substrates to the proteasome or targeting the proteasome to autophagy.proteasome | autophagy | ubiquitin | degradation

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Numerous proteins with unique characteristics are degraded by the 26S proteasome following monoubiquitination

Braten

Livneh

Ziv

et al. 2016

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

137

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The "canonical" proteasomal degradation signal is a substrateanchored polyubiquitin chain. However, a handful of proteins were shown to be targeted following monoubiquitination. In this study, we established-in both human and yeast cells-a systematic approach for the identification of monoubiquitination-dependent proteasomal substrates. The cellular wild-type polymerizable ubiquitin was replaced with ubiquitin that cannot form chains. Using proteomic analysis, we screened for substrates that are nevertheless degraded under these conditions compared with those that are stabilized, and therefore require polyubiquitination for their degradation. For randomly sampled representative substrates, we confirmed that their cellular stability is in agreement with our screening prediction. Importantly, the two groups display unique features: monoubiquitinated substrates are smaller than the polyubiquitinated ones, are enriched in specific pathways, and, in humans, are structurally less disordered. We suggest that monoubiquitination-dependent degradation is more widespread than assumed previously, and plays key roles in various cellular processes. monoubiquitination | 26S proteasome | protein degradation | ubiquitin replacement

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The ubiquitin-proteasome system and autophagy: Coordinated and independent activities

Cohen-Kaplan

Livneh

Avni

et al. 2016

The International Journal of Biochemistry & Cell Biology

150

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Ido Livneh

The life cycle of the 26S proteasome: from birth, through regulation and function, and onto its death

The m6A epitranscriptome: transcriptome plasticity in brain development and function

p62- and ubiquitin-dependent stress-induced autophagy of the mammalian 26S proteasome

Numerous proteins with unique characteristics are degraded by the 26S proteasome following monoubiquitination

The ubiquitin-proteasome system and autophagy: Coordinated and independent activities

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