Greg M. Young scite author profile

Gliogenesis in the mammalian central nervous system does not cease abruptly like neurogenesis. Instead, glia accumulate over a time period that extends into adulthood. To determine whether new glial cells in the adult cortex arise from resident progenitors and to determine the glial types to which these progenitors give rise to, cells in the perinatal subventricular zone (SVZ) were labeled with replication-deficient retroviral vectors, and clonal clusters of glia in the neocortex were examined from 1 week to 8 months of age. The average clonal cluster size increased during the first month of life. Interestingly, clusters containing oligodendrocyte lineage cells preferentially expanded with age, on average doubling every 3 months. Unexpectedly, the number of cells in astrocyte clusters decreased over time. In heterogeneous clusters, the numbers of oligodendroglia increased, whereas the number of astrocytes did not. Moreover, clonal clusters containing mature glia also contained less mature cells, indicating that clonally related progenitors do not differentiate synchronously in vivo. Thus, progenitors from the SVZ continue to cycle, resulting in an accumulation of oligodendroglia in the neocortex. These slowly cycling cells likely express the NG2 proteoglycan because a subset of the clonal clusters contained NG2(+) cells and these NG2(+) cells accumulated with time.

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Acute Exposure to CNTFin VivoInduces Multiple Components of Reactive Gliosis

Levison

Ducceschi

Young

et al. 1996

Experimental Neurology

103

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Selective Apoptosis Within the Rat Subependymal Zone: A Plausible Mechanism for Determining Which Lineages Develop from Neural Stem Cells

et al. 2000

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During development, the output of the subventricular zone (SZ) becomes increasingly restricted, yet it still harbors multipotential progenitors. The output of the SZ could be gated by selectively eliminating inappropriately specified progenitors. Using in situ end-labeling (ISEL) to identify apoptotic cells, nearly 60% of the ISEL⁺ cells in the juvenile forebrain were localized to the SZ. Of these dying cells, at least 9% could be identified as neurons, 4% as astrocytes, and 12% as oligodendrocytes. The remainder were negative for the stem cell marker nestin, as well as other markers evaluated. To test the hypothesis that committed progenitors were under selective pressures, neural stem/progenitor cells were allowed to differentiate in vitro in the presence or absence of the caspase 3 inhibitor z-DEVD-fmk. DEVD increased neuronal production 10-fold over control cultures. By contrast, the development of astrocytes and oligodendrocytes was not affected. Altogether, these data support the hypothesis that selective forces within the postnatal rat forebrain control the types of precursors that emerge from the germinal matrix. Furthermore, they suggest that different mechanisms control neuronal versus glial cell numbers.

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Neural Stem Cells in the Subventricular Zone Are a Source of Astrocytes and Oligodendrocytes, but Not Microglia

Levison¹,

Druckman²,

Young³

et al. 2003

Dev Neurosci

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The developmental origin of microglia remains a controversial subject. While it is generally accepted that primitive fetal macrophages that migrate from the yolk sac to the brain become microglia, it also has been argued that there is a second source of microglia that are of neuroectodermal lineage. To determine whether progenitors in the dorsolateral subventricular zone (SVZ_DL) are capable of producing microglia as well as macroglia, we infected perinatal rat SVZ_DL cells with a mixture of two replication-deficient retroviruses, placed these progenitors in vitro and then varied the media formulations to promote microglial differentiation. Mixed macroglial clones were obtained, but no heterogeneous clones containing microglia were observed, regardless of the media components. Among the macroglial clones, we observed every possible combination of type 1 astrocyte and O-2A lineage cells. Some clones were homogeneous and contained cells belonging to a single macroglial lineage. Other clonal clusters were heterogeneous and were comprised of type 1 astrocytes and oligodendrocytes, type 1 and type 2 astrocytes, or type 2 astrocytes and oligodendrocytes. Of 130 clones examined, where we used triple immunofluorescence with antibodies that recognize microglia, 2 clonal clusters contained OX-42+ microglia that were retrovirally labeled, but all of the cells in those clones expressed the microglial marker and none expressed either GFAP or O4. In addition, we isolated neural stem cells from the perinatal SVZ_DL and assessed their capacity to generate macroglia and microglia. Confirming and extending our previous analyses, neural stem cells generated homogeneous and heterogeneous macroglial clones, but they did not generate microglia. We conclude that brain macroglia and microglia do not share a common precursor, even though the neural stem cells in the SVZ_DL cells can produce neurons, astrocytes and oligodendrocytes. Therefore, the microglia that reside in the SVZ_DL are immigrants from nonneural precursors.

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Greg M. Young

Cycling cells in the adult rat neocortex preferentially generate oligodendroglia

Acute Exposure to CNTFin VivoInduces Multiple Components of Reactive Gliosis

Selective Apoptosis Within the Rat Subependymal Zone: A Plausible Mechanism for Determining Which Lineages Develop from Neural Stem Cells

Neural Stem Cells in the Subventricular Zone Are a Source of Astrocytes and Oligodendrocytes, but Not Microglia

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