Litcius/Paper detail

ATP as a Key Modulator of Fused-in-sarcoma Phase Separation and Aggregation: Insights into Amyotrophic Lateral Sclerosis Pathogenesis

Keiji Kitamura, Itta Tsukui, Fuka Sasaki, Yutaro Shiramasa, Miyu Arayama, Manato Morishita, A. Oshima, Soichiro Kitazawa, Tomoshi Kameda, Ryo Kitahara

2025Journal of Molecular Biology8 citationsDOIOpen Access PDF

Abstract

Fused in sarcoma (FUS) is an RNA-binding protein, the aberrant aggregation of which is linked to amyotrophic lateral sclerosis (ALS). Liquid-liquid phase separation (LLPS) of FUS facilitates functional condensate formation and can drive pathological aggregation under certain conditions. The aggregation-inhibitory effects of ATP, a key cellular hydrotrope, have been reported for multiple proteins; however, how ATP, present at approximately 1-12 mM concentrations in cells, regulates LLPS and amyloid fibril formation remains unclear. Therefore, we investigated how ATP modulates the LLPS behavior and aggregation of FUS and its ALS-linked variants, R495X and P525L. ATP destabilized both normal LLPS and aberrant high-pressure LLPS (HP-LLPS), with a relatively strong inhibitory effect on HP-LLPS. Pressure-jump experiments demonstrated that ATP reduced the irreversible aggregation propensity of HP-LLPS, particularly in ALS variants that exhibited enhanced aggregation compared to that by wild-type FUS. Molecular dynamic simulations further revealed that the triphosphate and adenosine moieties of ATP synergistically disrupted intermolecular interactions that were crucial for phase separation, leveraging its amphipathic properties. Notably, ATP concentrations within the physiological range (1-12 mM) significantly inhibited FUS aggregation, suggesting a protective role in cellular environments. These results indicate that decreased intracellular ATP levels may exacerbate aberrant phase transitions of FUS, contributing to ALS onset. This study underscores the potential of ATP as a therapeutic modulator of protein phase separation and aggregation, providing valuable insights into the molecular mechanisms of ALS. Our findings open new avenues for targeting ATP-regulated pathways for treating neurodegenerative disorders.

Topics & Concepts

Adenosine triphosphateChemistryProtein aggregationCell biologyIntracellularBiophysicsBiochemistryBiologyRNA Research and SplicingAmyotrophic Lateral Sclerosis ResearchNuclear Structure and Function
ATP as a Key Modulator of Fused-in-sarcoma Phase Separation and Aggregation: Insights into Amyotrophic Lateral Sclerosis Pathogenesis | Litcius