Abstract: 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 viral (“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.

Abstract: The present invention related to methods and compositions comprising recombinant vectors comprising chimeric capsids. The chimeric capsids confer an altered tropism that permits selective targeting of desired cells.

Abstract: The present invention provides methods and compositions for preparations of recombinant parvovirus virions with a reduced number of replication competent particles. The compositions of the present invention include nucleic acids encoding parvovirus helper functions which contain at least one non-native intron sequence. The present invention also includes helper function vectors, host cells transfected with the helper function vectors, methods of using the helper function vectors, and recombinant parvovirus virions produced by such methods.

Abstract: Neurological diseases such as Huntington's caused by the toxic effects of excetatory amino acids are alleviated by administering metabolic precursors of kynurenic acid to afflicted individuals. These metabolic precursors include kynurenine and tryptophan. Since the amount of kynurenic acid in Huntington's Disease patient's brains is less than that in normal individuals and such decrease is associated with the lesions found in the formation of the lesions. This occurs because kynurenic acid is an inhibitor of excitatory amino acid interactions at their receptors.

Abstract: The invention relates to a method of delivering exogenous DNA to a target cell of the mammalian central nervous system using an adeno-associated virus (AAV)-derived vector. Also included in the invention are the AAV-derived vectors containing exogenous DNA which encodes a protein or proteins which treat nervous system disease, and a method of treating such disease.

Abstract: Disclosed is a polymeric drug delivery system for delivery of any substance to the central nervous system. The delivery system is preferably implanted in the central nervous system for delivery of the drug directly to the central nervous system. These implantable devices can be used, for example, to achieve continuous delivery of dopamine, which cannot pass the blood brain barrier, directly into the brain for an extended time period. The implantable devices display controlled, "zero-order" release kinetics, a life time of a minimum of several weeks or months even when the devices contain water soluble, low molecular weight compounds, biocompatibility, and relative non-invasiveness. The polymeric devices are applicable in the treatment of a variety of central nervous system disorders including Parkinson's disease, Alzheimer's dementia, Huntington's disease, epilepsy, trauma, stroke, depression and other types of neurological and psychiatric illnesses.