A divalent siRNA chemical scaffold for potent and sustained modulation of gene expression throughout the central nervous system.

Abstract	Sustained silencing of gene expression throughout the brain using small interfering RNAs (siRNAs) has not been achieved. Here we describe an siRNA architecture, divalent siRNA (di-siRNA), that supports potent, sustained gene silencing in the central nervous system (CNS) of mice and nonhuman primates following a single injection into the cerebrospinal fluid. Di-siRNAs are composed of two fully chemically modified, phosphorothioate-containing siRNAs connected by a linker. In mice, di-siRNAs induced the potent silencing of huntingtin, the causative gene in Huntington's disease, reducing messenger RNA and protein throughout the brain. Silencing persisted for at least 6 months, with the degree of gene silencing correlating to levels of guide strand tissue accumulation. In cynomolgus macaques, a bolus injection of di-siRNA showed substantial distribution and robust silencing throughout the brain and spinal cord without detectable toxicity and with minimal off-target effects. This siRNA design may enable RNA interference-based gene silencing in the CNS for the treatment of neurological disorders.
Authors	Julia F Alterman, Bruno M D C Godinho, Matthew R Hassler, Chantal M Ferguson, Dimas Echeverria, Ellen Sapp, Reka A Haraszti, Andrew H Coles, Faith Conroy, Rachael Miller, Loic Roux, Paul Yan, Emily G Knox, Anton A Turanov, Robert M King, Gwladys Gernoux, Christian Mueller, Heather L Gray-Edwards, Richard P Moser, Nina C Bishop, Samer M Jaber, Matthew J Gounis, Miguel Sena-Esteves, Athma A Pai, Marian DiFiglia, Neil Aronin, Anastasia Khvorova
Journal	Nature biotechnology (Nat Biotechnol) Vol. 37 Issue 8 Pg. 884-894 (08 2019) ISSN: 1546-1696 [Electronic] United States
PMID	31375812 (Publication Type: Journal Article, Research Support, N.I.H., Extramural, Research Support, Non-U.S. Gov't)
Chemical References	Htt protein, mouse Huntingtin Protein RNA, Messenger RNA, Small Interfering
Topics	Animals Central Nervous System (metabolism) Gene Expression Regulation (drug effects) Huntingtin Protein (genetics, metabolism) Mice Mutation RNA, Messenger RNA, Small Interfering (administration & dosage, chemistry, metabolism)

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