A minimal construct of nuclear-import receptor Karyopherin-ß2 defines the regions critical for chaperone and disaggregation activity.

ABSTRACT

Karyopherin-ß2 (Kapß2) is a nuclear-import receptor that recognizes proline-tyrosine nuclear localization signals of diverse cytoplasmic cargo for transport to the nucleus. Kapß2 cargo includes several disease-linked RNA-binding proteins with prion-like domains, such as FUS, TAF15, EWSR1, hnRNPA1, and hnRNPA2. These RNA-binding proteins with prion-like domains are linked via pathology and genetics to debilitating degenerative disorders, including amyotrophic lateral sclerosis, frontotemporal dementia, and multisystem proteinopathy. Remarkably, Kapß2 prevents and reverses aberrant phase transitions of these cargoes, which is cytoprotective. However, the molecular determinants of Kapß2 that enable these activities remain poorly understood, particularly from the standpoint of nuclear-import receptor architecture. Kapß2 is a super-helical protein comprised of 20 HEAT repeats. Here, we design truncated variants of Kapß2 and assess their ability to antagonize FUS aggregation and toxicity in yeast and FUS condensation at the pure protein level and in human cells. We find that HEAT repeats 8 to 20 of Kapß2 recapitulate all salient features of Kapß2 activity. By contrast, Kapß2 truncations lacking even a single cargo-binding HEAT repeat display reduced activity. Thus, we define a minimal Kapß2 construct for delivery in adeno-associated viruses as a potential therapeutic for amyotrophic lateral sclerosis/frontotemporal dementia, multisystem proteinopathy, and related disorders.