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Abstract
Immortalized multipotent neural stem and progenitor cells have emerged as a highly
convenient source of tissue for genetic manipulation and ex vivo gene transfer to
the CNS. Recent studies show that these cells, which can be maintained and genetically
transduced as cell lines in culture, can survive, integrate and differentiate into
both neurons and glia after transplantation to the intact or damaged brain. Progenitors
engineered to secrete trophic factors, or to produce neurotransmitter-related or metabolic
enzymes can be made to repopulate diseased or injured brain areas, thus providing
a new potential therapeutic tool for the blockade of neurodegenerative processes and
reversal of behavioural deficits in animal models of neurodegenerative diseases. With
further technical improvements, the use of immortalized neural progenitors may bring
us closer to the challenging goal of targeted and effective CNS repair.