Modeling CNS neurodegeneration by overexpression of disease-causing proteins using viral vectors

Defective handling of proteins is a central feature of major neurodegenerative diseases. The discovery that neuronal dysfunction or degeneration can be caused by mutations in single cellular proteins has given new opportunities to model the underlying disease processes by genetic modification of cells in vitro or by generation of transgenic animals carrying the disease-causing gene. Recent developments in recombinant viral-vector technology have opened up an interesting alternative possibility, based on direct gene transfer to selected subregions or subsets of neurons in the brain. Using the highly efficient adeno-associated virus or lentivirus vectors, recent reports have shown that overexpression of mutated human huntingtin or alpha-synuclein in neurons in the striatum or substantia nigra induces progressive neuropathology, and neurodegeneration, similar to that seen in 'Huntington's and Parkinson's diseases. Targeted overexpression of disease-causing genes by recombinant viral vectors provides a new and highly flexible approach for in vivo modeling of neurodegenerative diseases, not only in mice and rats but also in primates.