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Molecular Therapy
Wilson, AA;Kwok, LW;Porter, EL;Payne, JG;McElroy, GS;Ohle, SJ;Greenhill, SR;Blahna, MT;Yamamoto, K;Jean, JC;Mizgerd, JP;Kotton, DN;
Although RNA interference (RNAi) has become a ubiquitous laboratory tool since its discovery 12 years ago, in vivo delivery to selected cell types remains a major technical challenge. Here, we report the use of lentiviral vectors for long-term in vivo delivery of RNAi selectively to resident alveolar macrophages (AMs), key immune effector cells in the lung. We demonstrate the therapeutic potential of this approach by RNAi-based downregulation of p65 (RelA), a component of the pro-inflammatory transcriptional regulator, nuclear factor B (NF-B) and a key participant in lung disease pathogenesis. In vivo RNAi delivery results in decreased induction of NF-B and downstream neutrophilic chemokines in transduced AMs as well as attenuated lung neutrophilia following stimulation with lipopolysaccharide (LPS). Through concurrent delivery of a novel lentiviral reporter vector (lenti-NF-B-luc-GFP) we track in vivo expression of NF-B target genes in real time, a critical step towards extending RNAi-based therapy to longstanding lung diseases. Application of this system reveals that resident AMs persist in the airspaces of mice following the resolution of LPS-induced inflammation, thus allowing these localized cells to be used as effective vehicles for prolonged RNAi delivery in disease settings.