2017
DOI: 10.1038/s41598-017-00662-2
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Delivery of ENaC siRNA to epithelial cells mediated by a targeted nanocomplex: a therapeutic strategy for cystic fibrosis

Abstract: The inhibition of ENaC may have therapeutic potential in CF airways by reducing sodium hyperabsorption, restoring lung epithelial surface fluid levels, airway hydration and mucociliary function. The challenge has been to deliver siRNA to the lung with sufficient efficacy for a sustained therapeutic effect. We have developed a self-assembling nanocomplex formulation for siRNA delivery to the airways that consists of a liposome (DOTMA/DOPE; L), an epithelial targeting peptide (P) and siRNA (R). LPR formulations … Show more

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Cited by 51 publications
(45 citation statements)
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“…This may be dose-limiting for ENaC inhibiting drugs, mainly traditional small-molecule global ENaC blockers. However, newer approaches which either exploit innate regulatory mechanisms specific to the airway epithelial milieu [53], or tissue-specific targeting may enhance efficacy in the lung while simultaneously reducing systemic effects [54,55], thus minimizing the risk of hyperkalemia and other off-target drug effects. Furthermore, ongoing development of new small molecule direct ENaC inhibitors which do not cause hyperkalemia are promising (AZD5634; clinicaltrials.gov: NCT02950805).…”
Section: Challenges Of Enac-targeted Therapeuticsmentioning
confidence: 99%
See 2 more Smart Citations
“…This may be dose-limiting for ENaC inhibiting drugs, mainly traditional small-molecule global ENaC blockers. However, newer approaches which either exploit innate regulatory mechanisms specific to the airway epithelial milieu [53], or tissue-specific targeting may enhance efficacy in the lung while simultaneously reducing systemic effects [54,55], thus minimizing the risk of hyperkalemia and other off-target drug effects. Furthermore, ongoing development of new small molecule direct ENaC inhibitors which do not cause hyperkalemia are promising (AZD5634; clinicaltrials.gov: NCT02950805).…”
Section: Challenges Of Enac-targeted Therapeuticsmentioning
confidence: 99%
“…While the β-subunit has been shown to be regulator of channel activity [6,58], the α-subunit appears to be critical for full channel function [77,78]. Thus, molecular knockdown of α-ENaC by multiple oligonucleotide therapies has repeatedly shown to reduce ENaC expression and channel activity in vitro and in vivo [55,7984]. These approaches have the potential to overcome challenges which have limited the utility of other ENaC-targeted therapeutics such as specificity, durability, and efficacy.…”
Section: Enac Inhibitors In Developmentmentioning
confidence: 99%
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“…In the latter study, monthly aerosol administration of DNA/liposomes was sufficiently effective to produce significant improvements in lung function. Non-viral vectors are usually based on cationic lipids [16,17] or polymers [18], encapsulating plasmid DNA or siRNA species. Unlike most viral vectors, non-viral vectors lack an active mechanism to import their genome into the nucleus of targeted cells, although passive import features can be added by the incorporation of tissue-specific DNA nuclear import signals found in certain promoter sequences, including the lung-specific SP-C promoter [19].…”
Section: A Brief History Of In-vivo Gene Therapymentioning
confidence: 99%
“…Unlike most viral vectors, non-viral vectors lack an active mechanism to import their genome into the nucleus of targeted cells, although passive import features can be added by the incorporation of tissue-specific DNA nuclear import signals found in certain promoter sequences, including the lung-specific SP-C promoter [19]. Non-viral vectors can also be combined with targeting peptide moieties to promote cell specificity and targeting [17], although in doing so, some of the advantages of a non-viral vector begin to be eroded.…”
Section: A Brief History Of In-vivo Gene Therapymentioning
confidence: 99%