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使用亲脂性缀合物将 RNAi 疗法扩展到肝外组织
Nature Biotechnology ( IF 33.1 ) Pub Date : 2022-06-02 , DOI: 10.1038/s41587-022-01334-x Kirk M Brown 1 , Jayaprakash K Nair 1 , Maja M Janas 1 , Yesseinia I Anglero-Rodriguez 1 , Lan T H Dang 1 , Haiyan Peng 1 , Christopher S Theile 1 , Elena Castellanos-Rizaldos 1 , Christopher Brown 1 , Donald Foster 1 , Jeffrey Kurz 1 , Jeffrey Allen 1 , Rajanikanth Maganti 1 , Jing Li 1 , Shigeo Matsuda 1 , Matthew Stricos 1 , Tyler Chickering 1 , Michelle Jung 1 , Kelly Wassarman 1 , Jeff Rollins 1 , Lauren Woods 1 , Alex Kelin 1 , Dale C Guenther 1 , Melissa W Mobley 1 , John Petrulis 1 , Robin McDougall 1 , Timothy Racie 1 , Jessica Bombardier 1 , Diana Cha 1 , Saket Agarwal 1 , Lei Johnson 1 , Yongfeng Jiang 1 , Scott Lentini 1 , Jason Gilbert 1 , Tuyen Nguyen 1 , Samantha Chigas 1 , Sarah LeBlanc 1 , Urjana Poreci 1 , Anne Kasper 1 , Arlin B Rogers 1 , Saeho Chong 1 , Wendell Davis 1 , Jessica E Sutherland 1 , Adam Castoreno 1 , Stuart Milstein 1 , Mark K Schlegel 1 , Ivan Zlatev 1 , Klaus Charisse 1 , Mark Keating 1 , Muthiah Manoharan 1 , Kevin Fitzgerald 1 , Jing-Tao Wu 1 , Martin A Maier 1 , Vasant Jadhav 1
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更新日期:2022-06-02
Nature Biotechnology ( IF 33.1 ) Pub Date : 2022-06-02 , DOI: 10.1038/s41587-022-01334-x Kirk M Brown 1 , Jayaprakash K Nair 1 , Maja M Janas 1 , Yesseinia I Anglero-Rodriguez 1 , Lan T H Dang 1 , Haiyan Peng 1 , Christopher S Theile 1 , Elena Castellanos-Rizaldos 1 , Christopher Brown 1 , Donald Foster 1 , Jeffrey Kurz 1 , Jeffrey Allen 1 , Rajanikanth Maganti 1 , Jing Li 1 , Shigeo Matsuda 1 , Matthew Stricos 1 , Tyler Chickering 1 , Michelle Jung 1 , Kelly Wassarman 1 , Jeff Rollins 1 , Lauren Woods 1 , Alex Kelin 1 , Dale C Guenther 1 , Melissa W Mobley 1 , John Petrulis 1 , Robin McDougall 1 , Timothy Racie 1 , Jessica Bombardier 1 , Diana Cha 1 , Saket Agarwal 1 , Lei Johnson 1 , Yongfeng Jiang 1 , Scott Lentini 1 , Jason Gilbert 1 , Tuyen Nguyen 1 , Samantha Chigas 1 , Sarah LeBlanc 1 , Urjana Poreci 1 , Anne Kasper 1 , Arlin B Rogers 1 , Saeho Chong 1 , Wendell Davis 1 , Jessica E Sutherland 1 , Adam Castoreno 1 , Stuart Milstein 1 , Mark K Schlegel 1 , Ivan Zlatev 1 , Klaus Charisse 1 , Mark Keating 1 , Muthiah Manoharan 1 , Kevin Fitzgerald 1 , Jing-Tao Wu 1 , Martin A Maier 1 , Vasant Jadhav 1
Affiliation
基于递送至肝细胞的短干扰 RNA (siRNA) 的疗法已获批准,但需要新的递送解决方案来靶向其他器官。在这里,我们展示了 2'- O的缀合siRNA 的十六烷基 (C16) 可在具有广泛细胞类型特异性的啮齿动物和非人类灵长类动物的中枢神经系统 (CNS)、眼睛和肺中实现安全、有效和持久的沉默。我们表明,鞘内或脑室内递送的 C16-siRNA 在 CNS 区域和细胞类型中都很活跃,具有持续的 RNA 干扰 (RNAi) 活性至少 3 个月。类似地,对眼睛进行玻璃体内给药或对肺进行鼻内给药会导致有效且持久的抑制作用。靶向淀粉样蛋白前体蛋白的 siRNA 的临床前疗效通过在阿尔茨海默病小鼠模型中的脑室内给药进行评估,从而改善生理和行为缺陷。共,
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