RESUMO
BACKGROUND: Three different nonviral vectors and naked DNA were evaluated for in vivo transfer of plasmid DNA to rat lungs through airways in either atelectatic or ventilated lungs. METHODS: The F344 rats underwent instillation of 300 microg DNA (pCIluc, luciferase) to the left lung. Naked DNA, linear polyethylenimine, branched polyethylenimine, and lipid GL-67 (in either atelectatic or ventilated lungs) were assessed (n = 5 per group). After 24 hours, left lung PaO2 (mm Hg) and luciferase activity (RLU/mg) were measured. The median (range) was given, and the analysis of variance was applied, followed by the planned comparison on log-transformed data. RESULTS: In atelectatic lungs, lipid GL-67 was best (927 [330 to 4112] RLU/mg; p < 0.001 versus other groups of atelectatic lung; p < 0.001 versus all other groups), but highest luciferase activity in all groups was measured in ventilated lungs using linear polyethylenimine (1,240 [922 to 2519] RLU/mg; p < 0.001 versus other groups of ventilated lung; p < 0.001 versus all other groups). In comparison with naked DNA, all nonviral vector systems significantly impaired PaO2 24 hours after airway transfection (p < 0.001; naked DNA versus all other groups). Regardless of transfection technique, PaO2 was worst in lungs transfected by linear polyethylenimine. CONCLUSIONS: Highest transfection was achieved with GL-67 in atelectatic lungs and with linear polyethylenimine in ventilated lungs. All gene delivery systems impaired gas exchange of the transduced lung in comparison with naked DNA.