We evaluated gene transfer using PEGylated bioresponsive nanolipid particles (NLPs) containing plasmid DNA administered by convection-enhanced delivery (CED) into orthotopically implanted U87-MG tumors in rat brain. We hypothesized that attachment of the human immunodeficiency virus trans-acting transcriptional activator peptide (TATp) to pH-sensitive, reduction-sensitive NLPs would increase gene transfer. TATp was attached either directly to a phospholipid (TATp-lipid) or via a 2-kd polyethylene glycol (PEG) to a lipid (TATp-PEG-lipid). Incorporation of 0.3 mol% TATp-PEG into pH-sensitive NLPs improved transfection 100,000-fold compared to NLPs in culture. In the brain or implanted tumors, the TATp-PEG restricted NLP convection to regions adjacent to the infusion catheter. Gene transfer in the brain from TATp-PEG NLPs, measured by green fluorescent protein (GFP) expression, was substantially greater than from NLPs adjacent to the catheter. Gene transfer using TATp-PEG NLPs, measured by luciferase expression, was 8-12-fold greater than from a 1,2-dioleoyl-3-trimethylammonium-propane/cholesterol cationic lipoplex but 13-27-fold less than from the NLPs. Brain luciferase expression was localized in perivascular macrophages. Thus a cationic ligand, such as the TATp-PEG-lipid, can dramatically increase gene expression in culture, in the normal brain, and in implanted tumors; however, restriction of NLP distribution to the vicinity of the infusion catheter reduces the absolute level of gene transfer.
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