| Summary: | Neural stem cells (NSCs) in the adult forebrain are thought to comprise a subpopulation of cells that express glial fibrillary acidic protein (GFAP), termed B cells. These GFAP+ cells generate proliferating neuroblasts that migrate from the lateral ventricle subependyma along the rostral migratory stream to become olfactory bulb interneurons. Based on this lineage, we set out to create a NSC deficient mouse through targeted ablation of dividing GFAP+ cells in vivo. We successfully depleted the GFAP+ cells as seen using an in vitro colony forming assay in multiple kill paradigms, however we were unable to permanently eliminate the multipotent, self-renewing colony forming cells. Instead, the targeted ablation of GFAP+ cells revealed an upstream, GFAP- cell that was induced to proliferate in the presence of leukemia inhibitory factor (LIF). These findings support the hypothesis that a population of GFAP-, LIF responsive cells are the definitive adult NSC upstream of GFAP+ cells.
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