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Aggregation and disaggregation features of the human proteome

Tomi A. Määttä, Mandy Rettel, Sindhuja Sridharan, Dominic Helm, Nils Kurzawa, Frank Stein, Mikhail M. Savitski

2020Molecular Systems Biology39 citationsDOIOpen Access PDF

Abstract

Protein aggregates have negative implications in disease. While reductionist experiments have increased our understanding of aggregation processes, the systemic view in biological context is still limited. To extend this understanding, we used mass spectrometry-based proteomics to characterize aggregation and disaggregation in human cells after non-lethal heat shock. Aggregation-prone proteins were enriched in nuclear proteins, high proportion of intrinsically disordered regions, high molecular mass, high isoelectric point, and hydrophilic amino acids. During recovery, most aggregating proteins disaggregated with a rate proportional to the aggregation propensity: larger loss in solubility was counteracted by faster disaggregation. High amount of intrinsically disordered regions were associated with faster disaggregation. However, other characteristics enriched in aggregating proteins did not correlate with the disaggregation rates. In addition, we analyzed changes in protein thermal stability after heat shock. Soluble remnants of aggregated proteins were more thermally stable compared with control condition. Therefore, our results provide a rich resource of heat stress-related protein solubility data and can foster further studies related to protein aggregation diseases.

Topics & Concepts

Isoelectric pointProtein aggregationProteomeContext (archaeology)BiologyHeat shock proteinProteomicsHuman proteome projectProteostasisProtein stabilityBiophysicsSolubilityBiochemistryComputational biologyChemistryEnzymeGeneOrganic chemistryPaleontologyHeat shock proteins researchMuscle metabolism and nutritionProtein Structure and Dynamics
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