Nuclear-import receptors remodel the dilute phase to suppress phase transitions of RNA-binding proteins with prion-like domains

RNA-binding proteins (RBPs) with prion-like domains, including FUS, hnRNPA1, and hnRNPA2, assemble into functional, metastable condensates that organize ribostasis, but can also transition into self-templating fibrils implicated in neurodegenerative proteinopathies such as amyotrophic lateral sclerosis (ALS). How nuclear-import receptors (NIRs) antagonize this pathological transition has remained unresolved. Here, we establish that NIRs regulate the phase behavior of prion-like cargos by remodeling the dilute phase. Quantitative analyses across length scales reveal that Karyopherin-β2 (Kapβ2) preferentially binds cargo in the dilute phase to lower the effective concentration of free RBPs thereby elevating the saturation concentration for phase separation and suppressing mesoscale clustering. ALS-linked FUS ^P525L , which binds Kapβ2 weakly, evades this regulation to form pathogenic assemblies. Thus, NIRs harness polyphasic linkage, the thermodynamic relationship between ligand binding and phase equilibria, to reshape the landscape of prion-like RBP assembly states, establishing a paradigm for how ATP-independent chaperones regulate phase behavior to prevent disease-linked aggregation.