A nucleolar mechanism suppresses organismal proteostasis by modulating TGFβ/ERK signalling

The protein homeostasis (proteostasis) network encompasses a myriad of mechanisms that maintain the integrity of the proteome by controlling various biological functions, including protein folding and degradation. Alas, ageing-associated decline in the efficiency of this network enables protein aggregation and consequently the development of late-onset neurodegenerative disorders, such as Alzheimer’s disease. Accordingly, the maintenance of proteostasis through late stages of life bears the promise to delay the emergence of these devastating diseases. Yet the identification of proteostasis regulators is needed to assess the feasibility of this approach. Here we report that knocking down the activity of the nucleolar FIB-1–NOL-56 complex protects model nematodes from proteotoxicity of the Alzheimer’s disease-causing amyloid-β peptide and of abnormally long poly-glutamine stretches. This mechanism promotes proteostasis across tissues by modulating the activity of TGFβ signalling and by enhancing proteasome activity. Our findings point at research avenues towards the development of proteostasis-promoting therapies for neurodegenerative maladies. Zhu et al. show that disabling the nucleolar FIB-1–NOL-56 complex protects Caenorhabditis elegans from the toxicity of neurodegeneration-linked protein aggregates across tissues by modulating TGFβ signalling and enhancing proteasome activity.