Phase separation of proSAAS into spheres results in core sequestration of TDP-43216-414 aggregates

Chaperone proteins perform vital functions in the maintenance of cellular proteostasis and play important roles during the development of neurodegenerative diseases involving protein aggregation. We have previously reported that a secreted neuronal chaperone known as proSAAS exhibits potent chaperone activity in vitro against protein aggregation and blocks the cytotoxic effects of amyloid and α-synuclein oligomers. Here we report that overexpression of proSAAS generates dense, membraneless 2 μm spheres which can increase by fusion up to 4 μM during expression within the cytoplasm. The presence of dense proSAAS spheres was confirmed using electron microscopy. ProSAAS spheres selectively sequestered GFP-TDP-43216-414 within their cores, resulting in cellular redistribution and retardation of degradation. ProSAAS expression was protective against TDP-43 cytotoxicity in a yeast model system. Aggregate sequestration via proSAAS encapsulation may provide protection from cell-to-cell transmission of aggregates and explain the as-yet unclear mechanism underlying the cytoprotective chaperone action of proSAAS.