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Literature DB >> 35654979

Expanding RNAi therapeutics to extrahepatic tissues with lipophilic conjugates.

Kirk M Brown¹, Jayaprakash K Nair¹, Maja M Janas¹, Yesseinia I Anglero-Rodriguez¹, Lan T H Dang¹, Haiyan Peng¹, Christopher S Theile¹, Elena Castellanos-Rizaldos¹, Christopher Brown¹, Donald Foster¹, Jeffrey Kurz¹, Jeffrey Allen¹, Rajanikanth Maganti¹, Jing Li¹, Shigeo Matsuda¹, Matthew Stricos¹, Tyler Chickering¹, Michelle Jung¹, Kelly Wassarman¹, Jeff Rollins¹, Lauren Woods¹, Alex Kelin¹, Dale C Guenther¹, Melissa W Mobley¹, John Petrulis¹, Robin McDougall¹, Timothy Racie¹, Jessica Bombardier¹, Diana Cha¹, Saket Agarwal¹, Lei Johnson¹, Yongfeng Jiang¹, Scott Lentini¹, Jason Gilbert¹, Tuyen Nguyen¹, Samantha Chigas¹, Sarah LeBlanc¹, Urjana Poreci¹, Anne Kasper¹, Arlin B Rogers¹, Saeho Chong¹, Wendell Davis¹, Jessica E Sutherland¹, Adam Castoreno¹, Stuart Milstein¹, Mark K Schlegel¹, Ivan Zlatev¹, Klaus Charisse¹, Mark Keating¹, Muthiah Manoharan¹, Kevin Fitzgerald¹, Jing-Tao Wu¹, Martin A Maier², Vasant Jadhav³.

Abstract

Therapeutics based on short interfering RNAs (siRNAs) delivered to hepatocytes have been approved, but new delivery solutions are needed to target additional organs. Here we show that conjugation of 2'-O-hexadecyl (C16) to siRNAs enables safe, potent and durable silencing in the central nervous system (CNS), eye and lung in rodents and non-human primates with broad cell type specificity. We show that intrathecally or intracerebroventricularly delivered C16-siRNAs were active across CNS regions and cell types, with sustained RNA interference (RNAi) activity for at least 3 months. Similarly, intravitreal administration to the eye or intranasal administration to the lung resulted in a potent and durable knockdown. The preclinical efficacy of an siRNA targeting the amyloid precursor protein was evaluated through intracerebroventricular dosing in a mouse model of Alzheimer's disease, resulting in amelioration of physiological and behavioral deficits. Altogether, C16 conjugation of siRNAs has the potential for safe therapeutic silencing of target genes outside the liver with infrequent dosing.

Entities: Chemical

Mesh：

Substances：

Year: 2022 PMID： 35654979 DOI： 10.1038/s41587-022-01334-x

Source DB: PubMed Journal: Nat Biotechnol ISSN： 1087-0156 Impact factor: 68.164

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