Cell stress and phase separation stabilize the monomeric state of pseudoisocyanine chloride employed as a self-assembly crowding sensor

Abstract

Cellular stress and ageing involve an increase in crowding and aggregation of amylogenic proteins. We here investigate if crowding is the intrinsic cause of aggregation and utilise a previously established non-protein aggregation sensor, namely pseudoisocyanine chloride (PIC). PIC shows fibrillization in cells into a highly fluorescent J-aggregated state and is sensitive to crowding. Surprisingly, cell stress conditions stabilise the monomeric rather than the aggregated state of PIC both in the cytoplasm and in stress granules. Regarding the different physiochemical changes of the cytoplasm occurring upon cell stress, involving volume reduction, phase separation and solidification, the intrinsic crowding effect is not the key factor to drive associated self-assembly processes. Cellular stress and ageing involve an increase in crowding and aggregation of amylogenic proteins, but the connection between protein destabilisation and the onset of aggregation is poorly understood. Here, the authors utilize a non-protein aggregation sensor based on pseudoisocyanine chloride to analyse the effect of macromolecular crowding in the cytoplasm on the self-assembly process, and find that the high crowding densities observed in the cytoplasm and stress granules upon stress are not an intrinsic cause for aggregation of amylogenic proteins.