Ependyma

  (Redirected from Ependymal cell)

The ependyma is the thin neuroepithelial (simple columnar ciliated epithelium) lining of the ventricular system of the brain and the central canal of the spinal cord.[1] The ependyma is one of the four types of neuroglia in the central nervous system (CNS). It is involved in the production of cerebrospinal fluid (CSF), and is shown to serve as a reservoir for neuroregeneration.

Ependyma
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Section of central canal of the spinal cord, showing ependyma and glia
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Photomicrograph of normal ependymal cells at 400× magnification in human autopsy tissue
Identifiers
MeSHD004805
TA98A14.1.00.022
TA25368
FMA242791
Anatomical terminology

StructureEdit

The ependyma is made up of ependymal cells called ependymocytes, a type of glial cell. These cells line the ventricles in the brain and the central canal of the spinal cord, which become filled with cerebrospinal fluid. These are nervous tissue cells with simple columnar shape, much like that of some mucosal epithelial cells.[2] Early monociliated ependymal cells are differentiated to multiciliated ependymal cells for their function in circulating cerebrospinal fluid.[3]

The basal membranes of these cells are characterized by tentacle-like extensions that attach to astrocytes. The apical side is covered in cilia and microvilli.[4]

FunctionEdit

Cerebrospinal fluidEdit

Lining the CSF-filled ventricles, and spinal canal, the ependymal cells play an important role in the production and regulation of CSF. Their apical surfaces are covered in a layer of cilia, which circulate CSF around the CNS.[4] Their apical surfaces are also covered with microvilli, which absorb CSF. Within the ventricles of the brain, a population of modified ependymal cells and capillaries together known as the tela choroidea form a structure called the choroid plexus, which produces the CSF.[5]

Modified tight junctions between epithelial cells control fluid release. This release allows free exchange between CSF and nervous tissue of brain and spinal cord. This is why sampling of CSF, such as through a spinal tap, provides information about the whole CNS.

NeuroregenerationEdit

Jonas Frisén and his colleagues at the Karolinska Institute in Stockholm provided evidence that ependymal cells act as reservoir cells in the forebrain, which can be activated after stroke and as in vivo and in vitro stem cells in the spinal cord. However, these cells did not self-renew and were subsequently depleted as they generated new neurons, thus failing to satisfy the requirement for stem cells.[6][7] One study observed that ependymal cells from the lining of the lateral ventricle might be a source for cells which can be transplanted into the cochlea to reverse hearing loss.[8]

Clinical significanceEdit

Ependymoma is a tumor of the ependymal cells most commonly found in the fourth ventricle.

See alsoEdit

ReferencesEdit

  1. ^ "ependyma". The Free Dictionary.
  2. ^ Histology, a text in atlas, M. Ross 2011, 6th edition page 367
  3. ^ Kyrousi, C; Lygerou, Z; Taraviras, S (July 2017). "How a radial glial cell decides to become a multiciliated ependymal cell". Glia. 65 (7): 1032–1042. doi:10.1002/glia.23118. PMID 28168763. S2CID 3770948.
  4. ^ a b Brat, Daniel J. (2010-01-01), Perry, Arie; Brat, Daniel J. (eds.), "2 - Normal Brain Histopathology", Practical Surgical Neuropathology, New York: Churchill Livingstone, pp. 15–33, ISBN 978-0-443-06982-6, retrieved 2021-01-06
  5. ^ Sadler, T. (2010). Langman's medical embryology (11th ed.). Philadelphia: Lippincott William & Wilkins. p. 305. ISBN 978-0-7817-9069-7.
  6. ^ Johansson CB, Momma S, Clarke DL, Risling M, Lendahl U, Frisen J (1999). "Identification of a neural stem cell in the adult mammalian central nervous system". Cell. 96 (1): 25–34. doi:10.1016/S0092-8674(00)80956-3. PMID 9989494. S2CID 9658786.
  7. ^ Carlén M, Meletis K, Göritz C, Darsalia V, Evergren E, Tanigaki K, Amendola M, Barnabé-Heider F, Yeung MS, Naldini L, Honjo T, Kokaia Z, Shupliakov O, Cassidy RM, Lindvall O, Frisén J (2009). "Forebrain ependymal cells are Notch-dependent and generate neuroblasts and astrocytes after stroke". Nature Neuroscience. 12 (3): 259–267. doi:10.1038/nn.2268. PMID 19234458. S2CID 10479458.
  8. ^ "Brain cell hope for hearing loss". BBC News. 2008-12-09. Retrieved 2008-12-09.

External linksEdit