Indrajit Sahu scite author profile

SummaryClearance of misfolded and aggregated proteins is central to cell survival. Here, we describe a new pathway for maintaining protein homeostasis mediated by the proteasome shuttle factor UBQLN2. The 26S proteasome degrades polyubiquitylated substrates by recognizing them through stoichiometrically bound ubiquitin receptors, but substrates are also delivered by reversibly bound shuttles. We aimed to determine why these parallel delivery mechanisms exist and found that UBQLN2 acts with the HSP70-HSP110 disaggregase machinery to clear protein aggregates via the 26S proteasome. UBQLN2 recognizes client-bound HSP70 and links it to the proteasome to allow for the degradation of aggregated and misfolded proteins. We further show that this process is active in the cell nucleus, where another system for aggregate clearance, autophagy, does not act. Finally, we found that mutations in UBQLN2, which lead to neurodegeneration in humans, are defective in chaperone binding, impair aggregate clearance, and cause cognitive deficits in mice.

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The 20S as a stand-alone proteasome in cells can degrade the ubiquitin tag

Sahu

Mali

Sulkshane

et al. 2021

Nat Commun

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The proteasome, the primary protease for ubiquitin-dependent proteolysis in eukaryotes, is usually found as a mixture of 30S, 26S, and 20S complexes. These complexes have common catalytic sites, which makes it challenging to determine their distinctive roles in intracellular proteolysis. Here, we chemically synthesize a panel of homogenous ubiquitinated proteins, and use them to compare 20S and 26S proteasomes with respect to substrate selection and peptide-product generation. We show that 20S proteasomes can degrade the ubiquitin tag along with the conjugated substrate. Ubiquitin remnants on branched peptide products identified by LC-MS/MS, and flexibility in the 20S gate observed by cryo-EM, reflect the ability of the 20S proteasome to proteolyze an isopeptide-linked ubiquitin-conjugate. Peptidomics identifies proteasome-trapped ubiquitin-derived peptides and peptides of potential 20S substrates in Hi20S cells, hypoxic cells, and human failing-heart. Moreover, elevated levels of 20S proteasomes appear to contribute to cell survival under stress associated with damaged proteins.

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Proteasome in action: substrate degradation by the 26S proteasome

Sahu

Glickman

2021

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Ubiquitination is the major criteria for the recognition of a substrate-protein by the 26S proteasome. Additionally, a disordered segment on the substrate — either intrinsic or induced — is critical for proteasome engagement. The proteasome is geared to interact with both of these substrate features and prepare it for degradation. To facilitate substrate accessibility, resting proteasomes are characterised by a peripheral distribution of ubiquitin receptors on the 19S regulatory particle (RP) and a wide-open lateral surface on the ATPase ring. In this substrate accepting state, the internal channel through the ATPase ring is discontinuous, thereby obstructing translocation of potential substrates. The binding of the conjugated ubiquitin to the ubiquitin receptors leads to contraction of the 19S RP. Next, the ATPases engage the substrate at a disordered segment, energetically unravel the polypeptide and translocate it towards the 20S catalytic core (CP). In this substrate engaged state, Rpn11 is repositioned at the pore of the ATPase channel to remove remaining ubiquitin modifications and accelerate translocation. C-termini of five of the six ATPases insert into corresponding lysine-pockets on the 20S α-ring to complete 20S CP gate opening. In the resulting substrate processing state, the ATPase channel is fully contiguous with the translocation channel into the 20S CP, where the substrate is proteolyzed. Complete degradation of a typical ubiquitin-conjugate takes place over a few tens of seconds while hydrolysing tens of ATP molecules in the process (50 kDa/∼50 s/∼80ATP). This article reviews recent insight into biochemical and structural features that underlie substrate recognition and processing by the 26S proteasome.

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Structural Snapshots of 26S Proteasome Reveal Tetraubiquitin-Induced Conformations

Ding

Sahu

et al. 2019

Molecular Cell

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Signature activities of 20S proteasome include degradation of the ubiquitin-tag with the protein under hypoxia

Sahu

Mali

Sulkshane

et al. 2019

Preprint

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Careful removal of unwanted proteins is necessary for cell survival. The primary constitutive intracellular protease is the 26S proteasome complex, often found in equilibrium with its free catalytic subcomplex-the 20S core particle. Protein degradation by 26S is tightly regulated by prior ubiquitination of substrates, whereas 20S is amenable to substrates with an unstructured segment. Differentiating their contributions to intracellular proteolysis is challenging due to their common catalytic sites. Here, by chemically synthesizing a synoptic set of homogenous ubiquitinated proteins, we ascribe signature features to 20S function and demonstrate a unique property: degrading the ubiquitin-tag along with the target protein. Cryo-EM confirms that a ubiquitinated substrate can induce asymmetric conformational changes to 20S. Mass-spectrometry of intracellular peptidome under hypoxia and in human failing heart identifies the signature properties of 20S in cells. Moreover, the ability of 20S proteasome to clear toxic proteins rapidly, contributes to better survival under these conditions.

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Indrajit Sahu

UBQLN2 Mediates Autophagy-Independent Protein Aggregate Clearance by the Proteasome

The 20S as a stand-alone proteasome in cells can degrade the ubiquitin tag

Proteasome in action: substrate degradation by the 26S proteasome

Structural Snapshots of 26S Proteasome Reveal Tetraubiquitin-Induced Conformations

Signature activities of 20S proteasome include degradation of the ubiquitin-tag with the protein under hypoxia

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