Favorable Cardiovascular Health, Compression of Morbidity, and Healthcare Costs

Edited by Paul E. Fraser FUS and EWSR1 are RNA-binding proteins with prion-like domains (PrLDs) that aggregate in amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). The FUS and EWSR1 genes are also prone to chromosomal translocation events, which result in aberrant fusions between portions of the PrLDs of FUS and EWSR1 and the transcription factors CHOP and FLI. The resulting fusion proteins, FUS-CHOP and EWS-FLI, drive aberrant transcriptional programs that underpin liposarcoma and Ewing's sarcoma, respectively. The translocated PrLDs alter the expression profiles of these proteins and promote their phase separation and aggregation. Here, we report the development of yeast models of FUS-CHOP and EWS-FLI toxicity and aggregation. These models recapitulated several salient features of sarcoma patient cells harboring the FUS-CHOP and EWS-FLI translocations. To reverse FUS and EWSR1 aggregation, we have explored Hsp104, a hexameric AAA؉ protein disaggregase from yeast. Previously, we engineered potentiated Hsp104 variants to suppress the proteotoxicity, aggregation, and mislocalization of FUS and other proteins that aggregate in ALS/FTD and Parkinson's disease. Potentiated Hsp104 variants that robustly suppressed FUS toxicity and aggregation also suppressed the toxicity and aggregation of FUS-CHOP and EWS-FLI. We suggest that these new yeast models are powerful platforms for screening for modulators of FUS-CHOP and EWS-FLI phase separation. Moreover, Hsp104 variants might be employed to combat the toxicity and phase separation of aberrant fusion proteins involved in sarcoma.Chromosomal translocation events underpin sarcoma (1). In liposarcoma, the N-terminal portion of FUS 3 becomes aber-

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Prion-Like Proteins in Phase Separation and Their Link to Disease

Sprunger

Jackrel

2021

Biomolecules

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Aberrant protein folding underpins many neurodegenerative diseases as well as certain myopathies and cancers. Protein misfolding can be driven by the presence of distinctive prion and prion-like regions within certain proteins. These prion and prion-like regions have also been found to drive liquid-liquid phase separation. Liquid-liquid phase separation is thought to be an important physiological process, but one that is prone to malfunction. Thus, aberrant liquid-to-solid phase transitions may drive protein aggregation and fibrillization, which could give rise to pathological inclusions. Here, we review prions and prion-like proteins, their roles in phase separation and disease, as well as potential therapeutic approaches to counter aberrant phase transitions.

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Molecular determinants and modifiers of Matrin-3 toxicity, condensate dynamics, and droplet morphology

et al. 2022

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Quality Control in the ER: Misfolded Prohormones Get a Checkup

Sprunger

Jackrel

2019

Molecular Cell

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Monitoring condensate dynamics in S. cerevisiae using fluorescence recovery after photobleaching

Sprunger

Jackrel²

2022

STAR Protocols

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Correction: Engineered protein disaggregases mitigate toxicity of aberrant prion-like fusion proteins underlying sarcoma.

Ryan¹,

Sprunger²,

Holthaus³

et al. 2019

Journal of Biological Chemistry

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Macy L. Sprunger

Engineered protein disaggregases mitigate toxicity of aberrant prion-like fusion proteins underlying sarcoma

Prion-Like Proteins in Phase Separation and Their Link to Disease

Molecular determinants and modifiers of Matrin-3 toxicity, condensate dynamics, and droplet morphology

Quality Control in the ER: Misfolded Prohormones Get a Checkup

Monitoring condensate dynamics in S. cerevisiae using fluorescence recovery after photobleaching

Correction: Engineered protein disaggregases mitigate toxicity of aberrant prion-like fusion proteins underlying sarcoma.

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