Cellular Composition and Three-Dimensional Organization of the Subventricular Germinal Zone in the Adult Mammalian Brain

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Volume 17, Number 13, Issue of July 1, 1997 pp. 5046-5061
Copyright ©1997 Society for Neuroscience

Cellular Composition and Three-Dimensional Organization of the Subventricular Germinal Zone in the Adult Mammalian Brain

Received Dec. 23, 1996; revised March 19, 1997; accepted April 15, 1997.
Fiona Doetsch¹, Jose Manuel García-Verdugo², and Arturo Alvarez-Buylla¹
¹ The Rockefeller University, New York, New York 10021, and ² Universidad de Valencia, Burjasot-46100, Valencia, Spain
The adult mammalian subventricular zone (SVZ) contains stem cells that give rise to neurons and glia. In vivo, SVZ progenymigrate 3-8 mm to the olfactory bulb, where they form neurons.We show here that the SVZ of the lateral wall of the lateral ventriclesin adult mice is composed of neuroblasts, glial cells, and a novelputative precursor cell. The topographical organization of thesecells suggests how neurogenesis and migration are integrated inthis region. Type A cells had the ultrastructure of migratingneuronal precursors. These cells were arranged as chains parallelto the walls of the ventricle and were polysialylated neural adhesioncell molecule- (PSA-NCAM), TuJ1- ( $beta$ -tubulin), and nestin-positivebut GFAP- and vimentin-negative. Chains of Type A cells were ensheathedby two ultrastructurally distinct astrocytes (Type B1 and B2)that were GFAP-, vimentin-, and nestin-positive but PSA-NCAM-and TuJ1-negative. Type A and B2 (but not B1) cells incorporated[³H]thymidine. The most actively dividing cell in the SVZ correspondedto Type C cells, which had immature ultrastructural characteristicsand were nestin-positive but negative to the other markers. TypeC cells formed focal clusters closely associated with chains ofType A cells. Whereas Type C cells were present throughout theSVZ, they were not found in the rostral migratory stream thatlinks the SVZ with the olfactory bulb. These results suggest thatchains of migrating neuroblasts in the SVZ may be derived fromType C cells. Our results provide a topographical model for theadult SVZ and should serve as a basis for the in vivo identificationof stem cells in the adult mammalian brain.

Key words: subventricular zone; subependymal zone; neurogenesis; stem cells; ultrastructure; tangential migration; chain migration; astrocytes; ependyma

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Volume 17, Number 13, Issue of July 1, 1997 pp. 5046-5061 Copyright ©1997 Society for Neuroscience

Cellular Composition and Three-Dimensional Organization of the Subventricular Germinal Zone in the Adult Mammalian Brain

Volume 17, Number 13, Issue of July 1, 1997 pp. 5046-5061
Copyright ©1997 Society for Neuroscience