Gliogenesis | EPFL Graph Search

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Gliogenesis is the generation of non-neuronal glia populations derived from multipotent neural stem cells. Gliogenesis results in the formation of non-neuronal glia populations from neuronal cells. In this capacity, glial cells provide multiple functions to both the central nervous system (CNS) and the peripheral nervous system (PNS). Subsequent differentiation of glial cell populations results in function-specialized glial lineages. Glial cell-derived astrocytes are specialized lineages responsible for modulating the chemical environment by altering ion gradients and neurotransmitter transduction. Similarly derived, oligodendrocytes produce myelin, which insulates axons to facilitate electric signal transduction. Finally, microglial cells are derived from glial precursors and carry out macrophage-like properties to remove cellular and foreign debris within the central nervous system ref. Functions of glial-derived cell lineages are reviewed by Baumann and Hauw. Gliogenesis itself, and differentiation of glial-derived lineages are activated upon stimulation of specific signaling cascades. Similarly, inhibition of these pathways is controlled by distinct signaling cascades that control proliferation and differentiation. Thus, elaborate intracellular-mechanisms based on environmental signals are present to regulate the formation of these cells. As regulation is much more known in the CNS, its mechanisms and components will be focused on here. Understanding the mechanisms in which gliogenesis is regulated provides the potential to harness the ability to control the fate of glial cells and, consequently, the ability to reverse neurodegenerative diseases. Following the generation of neural stem cells, an option is presented to proceed to enter neurogenesis and form new neurons within the CNS, shift into gliogenesis, or remain in a pluripotent cell state. The mechanisms determining the ultimate fate of neural stem cells are conserved among both invertebrate and vertebrate species and are determined from extracellular cues generated from neighboring cells.

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Gliogenesis

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Adult neurogenesis is the process in which neurons are generated from neural stem cells in the adult. This process differs from prenatal neurogenesis. In most mammals, new neurons are born throughout adulthood in two regions of the brain: The subgranular zone (SGZ), part of the dentate gyrus of the hippocampus, where neural stem cells give birth to granule cells (implicated in memory formation and learning). The subventricular zone (SVZ) of the lateral ventricles, which can be divided into three microdomains: lateral, dorsal and medial.

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