Literature DB >> 18068219

Glial cells: old cells with new twists.

Ugo Ndubaku1, Maria Elena de Bellard.   

Abstract

Based on their characteristics and function--migration, neural protection, proliferation, axonal guidance and trophic effects--glial cells may be regarded as probably the most versatile cells in our body. For many years, these cells were considered as simply support cells for neurons. Recently, it has been shown that they are more versatile than previously believed--as true stem cells in the nervous system--and are important players in neural function and development. There are several glial cell types in the nervous system: the two most abundant are oligodendrocytes in the central nervous system and Schwann cells in the peripheral nervous system. Although both of these cells are responsible for myelination, their developmental origins are quite different. Oligodendrocytes originate from small niche populations from different regions of the central nervous system, while Schwann cells develop from a stem cell population (the neural crest) that gives rise to many cell derivatives besides glia and which is a highly migratory group of cells.

Entities:  

Mesh:

Year:  2007        PMID: 18068219      PMCID: PMC2365468          DOI: 10.1016/j.acthis.2007.10.003

Source DB:  PubMed          Journal:  Acta Histochem        ISSN: 0065-1281            Impact factor:   2.479


  138 in total

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Authors:  Wia Baron; Sanford J Shattil; Charles ffrench-Constant
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2.  Role of N-cadherin in Schwann cell precursors of growing nerves.

Authors:  Ina B Wanner; Nicole K Guerra; James Mahoney; Aman Kumar; Patrick M Wood; Rhona Mirsky; Kristján R Jessen
Journal:  Glia       Date:  2006-10       Impact factor: 7.452

3.  Oligodendrocyte precursors originate from both the dorsal and the ventral parts of the spinal cord.

Authors:  P Cameron-Curry; N M Le Douarin
Journal:  Neuron       Date:  1995-12       Impact factor: 17.173

4.  Release of autocrine growth factor by primary and immortalized Schwann cells.

Authors:  S Porter; L Glaser; R P Bunge
Journal:  Proc Natl Acad Sci U S A       Date:  1987-11       Impact factor: 11.205

5.  Oligodendrocyte and astrocyte development in rodents: an in situ and immunohistological analysis during embryonic development.

Authors:  Ying Liu; Yuanyuan Wu; Jeffrey C Lee; Haipeng Xue; Larysa H Pevny; Zaven Kaprielian; Mahendra S Rao
Journal:  Glia       Date:  2002-10       Impact factor: 7.452

6.  Notch receptor activation inhibits oligodendrocyte differentiation.

Authors:  S Wang; A D Sdrulla; G diSibio; G Bush; D Nofziger; C Hicks; G Weinmaster; B A Barres
Journal:  Neuron       Date:  1998-07       Impact factor: 17.173

7.  Axons regulate Schwann cell expression of the major myelin and NGF receptor genes.

Authors:  G Lemke; M Chao
Journal:  Development       Date:  1988-03       Impact factor: 6.868

8.  SoxD proteins influence multiple stages of oligodendrocyte development and modulate SoxE protein function.

Authors:  C Claus Stolt; Anita Schlierf; Petra Lommes; Simone Hillgärtner; Torsten Werner; Thomas Kosian; Elisabeth Sock; Nicoletta Kessaris; William D Richardson; Veronique Lefebvre; Michael Wegner
Journal:  Dev Cell       Date:  2006-11       Impact factor: 12.270

9.  PDGF receptors in the rat CNS: during late neurogenesis, PDGF alpha-receptor expression appears to be restricted to glial cells of the oligodendrocyte lineage.

Authors:  N P Pringle; H S Mudhar; E J Collarini; W D Richardson
Journal:  Development       Date:  1992-06       Impact factor: 6.868

10.  Krox-20 controls myelination in the peripheral nervous system.

Authors:  P Topilko; S Schneider-Maunoury; G Levi; A Baron-Van Evercooren; A B Chennoufi; T Seitanidou; C Babinet; P Charnay
Journal:  Nature       Date:  1994-10-27       Impact factor: 49.962
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  12 in total

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Journal:  Br J Pharmacol       Date:  2012-05       Impact factor: 8.739

2.  Defective adult oligodendrocyte and Schwann cell development, pigment pattern, and craniofacial morphology in puma mutant zebrafish having an alpha tubulin mutation.

Authors:  Tracy A Larson; Tiffany N Gordon; Hiu E Lau; David M Parichy
Journal:  Dev Biol       Date:  2010-08-05       Impact factor: 3.582

3.  Embryonic development of glial cells and myelin in the shark, Chiloscyllium punctatum.

Authors:  Lisa Rotenstein; Anthony Milanes; Marilyn Juarez; Michelle Reyes; Maria Elena de Bellard
Journal:  Gene Expr Patterns       Date:  2009-09-04       Impact factor: 1.224

4.  Extracellular ATP-Induced Alterations in Extracellular H+ Fluxes From Cultured Cortical and Hippocampal Astrocytes.

Authors:  Ji-In Vivien Choi; Boriana K Tchernookova; Wasan Kumar; Lech Kiedrowski; Calla Goeke; Marina Guizzetti; John Larson; Matthew A Kreitzer; Robert Paul Malchow
Journal:  Front Cell Neurosci       Date:  2021-04-30       Impact factor: 5.505

5.  Cellular scale anisotropic topography guides Schwann cell motility.

Authors:  Jennifer A Mitchel; Diane Hoffman-Kim
Journal:  PLoS One       Date:  2011-09-20       Impact factor: 3.240

6.  Alpha 2 Na+,K+-ATPase silencing induces loss of inflammatory response and ouabain protection in glial cells.

Authors:  Paula F Kinoshita; Lidia M Yshii; Ana Maria M Orellana; Amanda G Paixão; Andrea R Vasconcelos; Larissa de Sá Lima; Elisa M Kawamoto; Cristoforo Scavone
Journal:  Sci Rep       Date:  2017-07-07       Impact factor: 4.379

7.  Schwann Cell Precursors from Human Pluripotent Stem Cells as a Potential Therapeutic Target for Myelin Repair.

Authors:  Han-Seop Kim; Jungwoon Lee; Da Yong Lee; Young-Dae Kim; Jae Yun Kim; Hyung Jin Lim; Sungmin Lim; Yee Sook Cho
Journal:  Stem Cell Reports       Date:  2017-05-11       Impact factor: 7.765

8.  A multi-layered nerve guidance conduit design adapted to facilitate surgical implantation.

Authors:  Kayla Belanger; Guy Schlatter; Anne Hébraud; Frédéric Marin; Sylvie Testelin; Stéphanie Dakpé; Bernard Devauchelle; Christophe Egles
Journal:  Health Sci Rep       Date:  2018-10-31

9.  Neuron-oligodendrocyte myelination co-culture derived from embryonic rat spinal cord and cerebral cortex.

Authors:  Yi Pang; Baoying Zheng; Simpson L Kimberly; Zhengwei Cai; Philip G Rhodes; Rick C S Lin
Journal:  Brain Behav       Date:  2012-01       Impact factor: 2.708

10.  Losartan prevents tumor-induced hearing loss and augments radiation efficacy in NF2 schwannoma rodent models.

Authors:  Limeng Wu; Sasa Vasilijic; Yao Sun; Jie Chen; Lukas D Landegger; Yanling Zhang; Wenjianlong Zhou; Jun Ren; Samuel Early; Zhenzhen Yin; William W Ho; Na Zhang; Xing Gao; Grace Y Lee; Meenal Datta; Jessica E Sagers; Alyssa Brown; Alona Muzikansky; Anat Stemmer-Rachamimov; Luo Zhang; Scott R Plotkin; Rakesh K Jain; Konstantina M Stankovic; Lei Xu
Journal:  Sci Transl Med       Date:  2021-07-14       Impact factor: 19.319
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