| Literature DB >> 35671983 |
Anu Puri1, Faisal Ibrahim2, André O'Reilly Beringhs3, Camryn Isemann4, Paul Zakrevsky4, Abigail Whittenburg4, Derek Hargrove3, Tapan Kanai5, Rebecca S Dillard5, Natalia de Val5, Michael H Nantz6, Xiuling Lu3, Bruce A Shapiro7.
Abstract
We previously reported that hydroxylated oxime ether lipids (OELs) efficiently deliver functional Dicer substrate siRNAs (DsiRNAs) in cells. Here, we explored in vivo utility of these OELs, using OEL4 as a prototype and report that surface modification of the OEL4 formulations was essential for their in vivo applications. These surface-modified OEL4 formulations were developed by inclusion of various PEGylated lipids. The vesicle stability and gene knock-down were dependent on the PEG chain length. OEL4 containing DSPE-PEG350 and DSPE-PEG1000 (surprisingly not DSPE2000) promoted gene silencing in cells. In vivo studies demonstrated that OEL4 vesicles formulated using 3 mol% DSPE-PEG350 accumulate in human lung cancer (A549-luc2) xenografts in mice and exhibit a significant increase in tumor to liver ratios. These vesicles also showed a statistically significant reduction of luciferase signal in tumors compared to untreated mice. Taken together, the scalable OEL4:DSPE-PEG350 formulation serves as a novel candidate for delivery of RNAi therapeutics. Published by Elsevier Inc.Entities:
Keywords: Cationic lipids-RNA complexes; Gene silencing; Lung cancer; Oxime ether lipids; PEGylated vesicles; RNA interference (RNAi); RNA therapeutics; Stealth nanomedicine
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Year: 2022 PMID: 35671983 PMCID: PMC9427711 DOI: 10.1016/j.nano.2022.102572
Source DB: PubMed Journal: Nanomedicine ISSN: 1549-9634 Impact factor: 6.096