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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]
This schematic illustrates the four different types of glial cells, all of which possess cytoplasmic processes: ependymal cells (light pink), astrocytes (green), microglia (red), and oligodendrocytes (light blue). Cell bodies of neurons are in yellow (Their axons are surrounded by myelin, produced by oligodendrocytes).
Motile cilia are found in large numbers on respiratory epithelial cells – around 200 cilia per cell, where they function in mucociliary clearance, and also have mechanosensory and chemosensory functions. [12] [13] [14] Motile cilia on ependymal cells move the cerebrospinal fluid through the ventricular system of the brain.
Ependymal cells secrete high molecular mass glycoproteins into the cerebrospinal fluid, in which the bulk of them condense to form a filamentous structure named Reissner's fiber. [4] The subcommissural organ/ Reissner's fiber complex is thought to be involved in the reabsorption and circulation of the cerebrospinal fluid, and with functions ...
Tanycytes are highly specialized ependymal cells found in the third ventricle of the brain, and on the floor of the fourth ventricle. Each tanycyte has a long basal process that extends deep into the hypothalamus. It is possible that their function is to transfer chemical signals from the cerebrospinal fluid to the central nervous system.
The cells in the respiratory epithelium are of five main types: a) ciliated cells, b) goblet cells, c) brush cells, d) airway basal cells, and e) small granule cells (NDES) [6] Goblet cells become increasingly fewer further down the respiratory tree until they are absent in the terminal bronchioles; club cells take over their role to some extent here. [7]
Its role as a neuroendocrine structure associated with the ventricular system qualifies it for classification as a CVO. [1] Related to its secretory function, the SCO is partially composed of ependymal cells. [1] [30] These ependymocytes are characterized by elongated cell bodies that contain secretory materials and are covered in cilia.
Regions of the choroid plexus produce and secrete most of the cerebrospinal fluid (CSF) of the central nervous system. [2] [3] The choroid plexus consists of modified ependymal cells surrounding a core of capillaries and loose connective tissue. [3] Multiple cilia on the ependymal cells move to circulate the cerebrospinal fluid. [4]