Chemical engineering of therapeutic siRNAs for allele-specific gene silencing in Huntington’s disease models

被引:0
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作者
Faith Conroy
Rachael Miller
Julia F. Alterman
Matthew R. Hassler
Dimas Echeverria
Bruno M. D. C. Godinho
Emily G. Knox
Ellen Sapp
Jaquelyn Sousa
Ken Yamada
Farah Mahmood
Adel Boudi
Kimberly Kegel-Gleason
Marian DiFiglia
Neil Aronin
Anastasia Khvorova
Edith L. Pfister
机构
[1] UMass Chan Medical School,Department of Medicine
[2] UMass Chan Medical School,RNA Therapeutics Institute
[3] Massachusetts General Hospital,Department of Neurology
[4] Harvard Medical School,undefined
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Nature Communications | / 13卷
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摘要
Small interfering RNAs are a new class of drugs, exhibiting sequence-driven, potent, and sustained silencing of gene expression in vivo. We recently demonstrated that siRNA chemical architectures can be optimized to provide efficient delivery to the CNS, enabling development of CNS-targeted therapeutics. Many genetically-defined neurodegenerative disorders are dominant, favoring selective silencing of the mutant allele. In some cases, successfully targeting the mutant allele requires targeting single nucleotide polymorphism (SNP) heterozygosities. Here, we use Huntington’s disease (HD) as a model. The optimized compound exhibits selective silencing of mutant huntingtin protein in patient-derived cells and throughout the HD mouse brain, demonstrating SNP-based allele-specific RNAi silencing of gene expression in vivo in the CNS. Targeting a disease-causing allele using RNAi-based therapies could be helpful in a range of dominant CNS disorders where maintaining wild-type expression is essential.
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