Search results
Results From The WOW.Com Content Network
Radial glial cells, or radial glial progenitor cells (RGPs), are bipolar-shaped progenitor cells that are responsible for producing all of the neurons in the cerebral cortex. RGPs also produce certain lineages of glia , including astrocytes and oligodendrocytes .
Studies have shown that radial glia in the SGZ express nestin and Sox2, biomarkers associated with neural stem cells, and that isolated radial glia can generate new neurons in vitro. [8] Radial glial cells often divide asymmetrically, producing one new stem cell and one neuronal precursor cell per division. Thus, they have the capacity for self ...
Radial glial cells, also called radial glial progenitor cells, divide asymmetrically to produce a neuroblast and another radial glial cell that will re-enter the cell cycle. [5] [3] This mitosis occurs in the germinal neuroepithelium (or germinal zone), when a radial glial cell divides to produce the neuroblast. The neuroblast detaches from the ...
Neoplastic glial cells stained with an antibody against GFAP (brown), from a brain biopsy. While glial cells in the PNS frequently assist in regeneration of lost neural functioning, loss of neurons in the CNS does not result in a similar reaction from neuroglia. [18] In the CNS, regrowth will only happen if the trauma was mild, and not severe. [40]
The progenitor cells and radial glial cells respond to extracellular trophic factors - like ciliary neurotrophic factor (CNTF), cytokines or neuregulin 1 (NRG1) - that can determine whether the cells will differentiate into either neurons or glia. [5]
Foot-like processes are also present in Müller glia (modified astrocytes of the retina), [3] pancreatic stellate cells, [4] dendritic cells, [5] oligodendrocytes, [6] and others. Microglia , which are notably smaller than macroglia , can also extend their end-processes to contact areas of capillaries that are devoid of astrocyte endfeet , and ...
The radial glial cells are disposed in planes perpendicular to the axes of ventricles. One of their processes abuts the pia mater , while the other is deeply buried in gray matter. Radial glia are mostly present during development, playing a role in neuron migration .
The primary neural stem cells of the brain and spinal cord, termed radial glial cells, instead reside in the ventricular zone (VZ) (so-called because the VZ lines the inside of the developing ventricles). [4]