A gene delivery system which. is both safe and results in long-term expression throughout the brain has been developed. A lipid-entrapped, polycation-condensed DNA (LPD) system has been developed for brain gene delivery, using an adeno-associated vial. ("AAV") vector in which the transcription unit is flanked by the 145 bp inverted terminal repeats (ITR) of the adeno-associated virus. This AAV plasmid is more effective than a non-ITR containing plasmid in vivo. The results show that the LPD-AAV plasmid complexes efficiently transduce neurons and that gene expression can persist for over 10 months in the brain. Furthermore, the intraventricular delivery method with systemic hyperosmolality results in global gene delivery. The examples show that expression of the human aspartoacyclase ("ASPA") gene in children with this metabolic disorder can be obtained over a period of many months to a year, with functional activity.

The present invention provides a pharmaceutical composition, comprising: (a) cationic lipids, wherein said lipids are a liposomal mixture of a diacyl-ethyl-phosphocholine and 1,2-diacyl-sn-glycero-3-phosphoethanolamine; and (b) a plasmid cDNA sequence encoding a protein having tumor suppressor or pro-apoptotic activity. This composition has a high gene transfection efficiency at non-toxic doses and is designed to transfect human bronchial premalignant lesions and early endo-bronchial malignancies. Also provided is a method of method of treating a cancerous or pre-cancerous condition of the respiratory tract in an individual in need of such treatment, comprising the step of administering to said individual a pharmacologically effective dose of a pharmaceutical composition, comprising: (a) cationic lipids, wherein said lipids are a liposomal mixture of a diacyl-ethyl-phosphocholine and 1,2-diacyl-sn-glycero-3-phosphoethanolamine; and (b) a plasmid cDNA sequence encoding a protein having tumor suppressor or pro-apoptotic activity.

A method for delivering an isolated polynucleotide to the interior of a cell in a vertebrate, comprising the interstitial introduction of an isolated polynucleotide into a tissue of the vertebrate where the polynucleotide is taken up by the cells of the tissue and exerts a therapeutic effect on the vertebrate. The method can be used to deliver a therapeutic polypeptide to the cells of the vertebrate, to provide an immune response upon in vivo translation of the polynucleotide, to deliver antisense polynucleotides, to deliver receptors to the cells of the vertebrate, or to provide transitory gene therapy.

The invention provides adjuvants, immunogenic compositions, and methods useful for polynucleotide-based vaccination and immune response. In particular, the invention provides an adjuvant of cytofectin:co-lipid mixture wherein cytofectin is GAP-DMORIE.

The invention provides adjuvants, immunogenic compositions, and methods useful for polynucleotide-based vaccination and immune response. In particular, the invention provides an adjuvant of cytofectin:co-lipid mixture wherein cytofectin is GAP-DMORIE.