Tanycyte
Tanycytes are special ependymal cells found in the third ventricle of the brain, and on the floor of the fourth ventricle and have processes extending deep into the hypothalamus. It is possible that their function is to transfer chemical signals from the cerebrospinal fluid to the central nervous system.
Tanycyte | |
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Third ventricle wall in the brain of an immature rat. A tanycyte coexpressing CuZn SOD and GFAP is marked by the arrow. | |
Details | |
Location | Ependyma of third ventricle of the brain |
Identifiers | |
Latin | tanycytus |
NeuroLex ID | sao1149261773 |
TH | H2.00.06.2.01007 |
FMA | 54560 |
Anatomical terms of microanatomy |
The term tanycyte comes from the Greek word tanus which means elongated.
Structure
Tanycytes share some features with radial glial cells and astrocytes. Their form and location have led some authors to regard them as radial glial cells that remain in the hypothalamus throughout life. This has led some to believe that these cells share the same lineage.
Even so, tanycytes also display certain characteristics that distinguish them from radial glia cells. Tanycytes in rats begin to develop in the last two days of gestation and continue on until they reach their full differentiation in the first month of life. Radial glia cells on the other hand, are a key component of the embryonic brain. Tanycytes also contain many proteins not found in radial glia cells. Thus, evidence now suggests that tanycytes are genealogical descendants of radial glia cells that do not develop into astrocytes, but rather into their own subpopulation.
Location
Tanycytes in adult mammals are found in the ventricular system and the circumventricular organs. They are most numerous in the third ventricle of the brain, are also found in the fourth ventricle, and can also be seen in the spinal cord radiating from the ependyma of the central canal to the spinal cord surface. Tanycytes represent approximately 0.6% of the population of the lateral ventricular wall.[1]
Tanycytes have also been shown in vivo to serve as a diet-responsive neurogenic niche.[2]
Function
Recent work[3][4] suggests that tanycyte cells bridge the gap between the central nervous system (CNS) via cerebrospinal fluid (CSF) to the hypophyseal portal blood. This may also link the CSF to neuroendocrine events.
Role in the release of gonadotropin-releasing hormone
Researches in 2005 and 2010[5][6] found that tanycytes participate in the release of gonadotropin-releasing hormone (GnRH). GnRH is released by neurons located in the rostral hypothalamus. These nerve fibers are concentrated in the region that exactly matches the distribution of β1 tanycytes. β1 and β2 tanycytes are found nearer the arcuate nucleus and the median eminence.[7]
Currently, it is thought that there are two different mechanisms by which tanycytes participate in the release of GnRH. One includes the cyclic remodeling of the spatial relationship between GnRH terminals, the tanycytes, and the perivascular space. The second is the cell to cell signaling mechanism mediated by specific tanycyte compounds. Recent evidence supports both mechanisms, and also the possibility that both are part of a single mechanism.
History
The term tanycyte was coined by Horstmann in 1954 when he described a distinct structural feature of the cell, which is a single, long basal process that projects to a distinct region of the hypothalamus.
During the 1970s and 1980s, tanycytes were the subject of many research publications, ranging from their morphology to function. But the lack of advanced methodological tools stalled research and led to disagreements between researchers about the full role of tanycytes. Recent advances in immunocytochemistry have allowed for new research in this area.
References
- Doetsch, F; García-Verdugo, JM; Alvarez-Buylla, A (Jul 1, 1997). "Cellular composition and three-dimensional organization of the subventricular germinal zone in the adult mammalian brain". The Journal of Neuroscience. 17 (13): 5046–61. doi:10.1523/JNEUROSCI.17-13-05046.1997. PMC 6573289. PMID 9185542.
- Lee, DA; Bedont, JL; Pak, T; Wang, H; Song, J; Miranda-Angulo, A; Takiar, V; Charubhumi, V; Balordi, F; Takebayashi, H; Aja, S; Ford, E; Fishell, G; Blackshaw, S (Mar 25, 2012). "Tanycytes of the hypothalamic median eminence form a diet-responsive neurogenic niche". Nature Neuroscience. 15 (5): 700–2. doi:10.1038/nn.3079. PMC 3380241. PMID 22446882.
- Mullier, A; Bouret, SG; Prevot, V; Dehouck, B (Apr 1, 2010). "Differential distribution of tight junction proteins suggests a role for tanycytes in blood-hypothalamus barrier regulation in the adult mouse brain". The Journal of Comparative Neurology. 518 (7): 943–62. doi:10.1002/cne.22273. PMC 2892518. PMID 20127760.
- Langlet, F; Mullier, A; Bouret, SG; Prevot, V; Dehouck, B (Oct 15, 2013). "Tanycyte-like cells form a blood-cerebrospinal fluid barrier in the circumventricular organs of the mouse brain". J. Comp. Neurol. 521 (15): 3389–405. doi:10.1002/cne.23355. PMC 3973970. PMID 23649873.
- Prevot, V; Bellefontaine, N; Baroncini, M; Sharif, A; Hanchate, NK; Parkash, J; Campagne, C; de Seranno, S (Jul 2010). "Gonadotrophin-releasing hormone nerve terminals, tanycytes and neurohaemal junction remodelling in the adult median eminence: functional consequences for reproduction and dynamic role of vascular endothelial cells". Journal of Neuroendocrinology. 22 (7): 639–49. doi:10.1111/j.1365-2826.2010.02033.x. PMC 3168864. PMID 20492366.
- Rodríguez, EM; Blázquez, JL; Pastor, FE; Peláez, B; Peña, P; Peruzzo, B; Amat, P (2005). "Hypothalamic tanycytes: a key component of brain-endocrine interaction" (PDF). International Review of Cytology. 247: 89–164. doi:10.1016/S0074-7696(05)47003-5. hdl:10366/17544. PMID 16344112.
- Bolborea, M; Dale, N (February 2013). "Hypothalamic tanycytes: potential roles in the control of feeding and energy balance". Trends in Neurosciences. 36 (2): 91–100. doi:10.1016/j.tins.2012.12.008. PMC 3605593. PMID 23332797.
- Bibliography
- Rodríguez, EM; Blázquez, JL; Pastor, FE; Peláez, B; Peña, P; Peruzzo, B; Amat, P (2005). "Hypothalamic tanycytes: a key component of brain-endocrine interaction" (PDF). International Review of Cytology. 247: 89–164. doi:10.1016/S0074-7696(05)47003-5. hdl:10366/17544. PMID 16344112.
- Kubota, T; Sato, K; Arishima, H; Takeuchi, H; Kitai, R; Nakagawa, T (Feb 2006). "Astroblastoma: immunohistochemical and ultrastructural study of distinctive epithelial and probable tanycytic differentiation". Neuropathology. 26 (1): 72–81. doi:10.1111/j.1440-1789.2006.00636.x. hdl:10098/1809. PMID 16521483. S2CID 21225763.
- Guadaño-Ferraz, A; Obregón, MJ; St Germain, DL; Bernal, J (Sep 16, 1997). "The type 2 iodothyronine deiodinase is expressed primarily in glial cells in the neonatal rat brain". Proceedings of the National Academy of Sciences of the United States of America. 94 (19): 10391–6. Bibcode:1997PNAS...9410391G. doi:10.1073/pnas.94.19.10391. PMC 23373. PMID 9294221.
- Prieto, M; Chauvet, N; Alonso, G (Jan 2000). "Tanycytes transplanted into the adult rat spinal cord support the regeneration of lesioned axons". Experimental Neurology. 161 (1): 27–37. doi:10.1006/exnr.1999.7223. PMID 10683271. S2CID 42078438.
External links
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