posted on 2024-10-15, 08:30authored byMan-Di Wang, Li Yi, Yanying Li, Ruiwen Xu, Jiaojiao Hu, Da-Yong Hou, Cong Liu, Hao Wang
Fused in sarcoma (FUS), a multifunctional deoxyribonucleic
acid
(DNA)/ribonucleic acid (RNA)-binding protein, has been implicated
in various cancer types, including sarcoma and leukemia. Despite its
association with these diseases, there has been limited exploration
of FUS as a cancer therapy target, primarily because its dynamic nature
makes it difficult to target specifically. In this study, we explored
a kind of β-sheet peptide foldamer, named β4-TAT, to influence FUS aggregation by targeting its RNA recognition
motifs (RRM). This approach leverages the noncovalent interaction
characteristics of peptide self-assembly processes. The β4 sequence, derived from the FUS RRM β-sheet, in combination
with TAT, a peptide known for its nuclear targeting capability, enables
β4-TAT to bind specifically to the analogous β4 sequence within FUS. Notably, β4-TAT effectively
induces FUS aggregation within cells, leading to the death of cancer
cells. Our work developed a novel peptide foldamer-based strategy
for inducing protein aggregation, paving the way for innovative therapeutic
approaches in targeting FUS-associated cancers.