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Sulfated disaccharide protects membrane and DNA damages from arginine-rich dipeptide repeats in ALS.

Yu-Jen ChangKai-Tai LinOrion ShihChi-Hua YangChing-Yu ChuangMing-Han FangWei-Bin LaiYi-Chung LeeHung-Chih KuoShang-Cheng HungChi-Kuang YaoYen-Ju ChengYun-Ru Chen
Published in: Science advances (2024)
Hexanucleotide repeat expansion in C9ORF72 ( C9 ) is the most prevalent mutation among amyotrophic lateral sclerosis (ALS) patients. The patients carry over ~30 to hundreds or thousands of repeats translated to dipeptide repeats (DPRs) where poly-glycine-arginine (GR) and poly-proline-arginine (PR) are most toxic. The structure-function relationship is still unknown. Here, we examined the minimal neurotoxic repeat number of poly-GR and found that extension of the repeat number led to a loose helical structure disrupting plasma and nuclear membrane. Poly-GR/PR bound to nucleotides and interfered with transcription. We screened and identified a sulfated disaccharide that bound to poly-GR/PR and rescued poly-GR/PR-induced toxicity in neuroblastoma and C9-ALS -iPSC-derived motor neurons. The compound rescued the shortened life span and defective locomotion in poly-GR/PR expressing Drosophila model and improved motor behavior in poly-GR-injected mouse model. Overall, our results reveal structural and toxicity mechanisms for poly-GR/PR and facilitate therapeutic development for C9 -ALS.
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