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Mechanistic basis for ubiquitin modulation of a protein energy landscape

Emma C. Carroll, Naomi R. Latorraca, Johanna M. Lindner, Brendan C. Maguire, Jeffrey G. Pelton, Susan Marqusee

2021Proceedings of the National Academy of Sciences16 citationsDOIOpen Access PDF

Abstract

Ubiquitin is a common posttranslational modification canonically associated with targeting proteins to the 26S proteasome for degradation and also plays a role in numerous other nondegradative cellular processes. Ubiquitination at certain sites destabilizes the substrate protein, with consequences for proteasomal processing, while ubiquitination at other sites has little energetic effect. How this site specificity-and, by extension, the myriad effects of ubiquitination on substrate proteins-arises remains unknown. Here, we systematically characterize the atomic-level effects of ubiquitination at various sites on a model protein, barstar, using a combination of NMR, hydrogen-deuterium exchange mass spectrometry, and molecular dynamics simulation. We find that, regardless of the site of modification, ubiquitination does not induce large structural rearrangements in the substrate. Destabilizing modifications, however, increase fluctuations from the native state resulting in exposure of the substrate's C terminus. Both of the sites occur in regions of barstar with relatively high conformational flexibility. Nevertheless, destabilization appears to occur through different thermodynamic mechanisms, involving a reduction in entropy in one case and a loss in enthalpy in another. By contrast, ubiquitination at a nondestabilizing site protects the substrate C terminus through intermittent formation of a structural motif with the last three residues of ubiquitin. Thus, the biophysical effects of ubiquitination at a given site depend greatly on local context. Taken together, our results reveal how a single posttranslational modification can generate a broad array of distinct effects, providing a framework to guide the design of proteins and therapeutics with desired degradation and quality control properties.

Topics & Concepts

UbiquitinEnergy landscapeUbiquitin-conjugating enzymeProtein degradationCell biologyF-box proteinMechanism (biology)ChemistryBiologyUbiquitin ligaseBiochemistryPhysicsGeneQuantum mechanicsUbiquitin and proteasome pathwaysEndoplasmic Reticulum Stress and DiseaseAutophagy in Disease and Therapy
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