Ependymal cells in the spinal cord as neuronal progenitors

被引:22
作者
Moreno-Manzano, Victoria [1 ]
机构
[1] Ctr Invest Principe Felipe, Neuronal & Tissue Regenerat Lab, Valencia, Spain
来源
CURRENT OPINION IN PHARMACOLOGY | 2020年 / 50卷
关键词
NEURAL STEM-CELLS; STEM/PROGENITOR CELLS; GLIAL-CELLS; PHASE-I; INJURY; TRANSPLANTATION; ORIGIN; DIFFERENTIATION; NEUROGENESIS; EXPRESSION;
D O I
10.1016/j.coph.2019.11.008
中图分类号
R9 [药学];
学科分类号
1007 ;
摘要
Ependymal cells are neural progenitors and form part of the central canal of the spinal cord. Therefore, ependymal cells could serve as a potential source of neural progenitors for regenerative medicine applications. Such applications consist of endogenous activation or exogenous transplantation, alone or in combination with pharmacological treatments, to repair spinal cord injuries. This mini review describes the main phenotypical characteristics of ependymal cells from spinal cord and the opportunities offered for spinal cord injury therapeutic application.
引用
收藏
页码:82 / 87
页数:6
相关论文
共 57 条
[1]   Concise Review: Bridging the Gap: Novel Neuroregenerative and Neuroprotective Strategies in Spinal Cord Injury [J].
Ahuja, Christopher S. ;
Fehlings, Michael .
STEM CELLS TRANSLATIONAL MEDICINE, 2016, 5 (07) :914-924
[2]   A comparative view of regenerative neurogenesis in vertebrates [J].
Alunni, Alessandro ;
Bally-Cuif, Laure .
DEVELOPMENT, 2016, 143 (05) :741-753
[3]   A unified hypothesis on the lineage of neural stem cells [J].
Alvarez-Buylla, A ;
García-Verdugo, JM ;
Tramontin, AD .
NATURE REVIEWS NEUROSCIENCE, 2001, 2 (04) :287-293
[4]   Origin of New Glial Cells in Intact and Injured Adult Spinal Cord [J].
Barnabe-Heider, Fanie ;
Goritz, Christian ;
Sabelstrom, Hanna ;
Takebayashi, Hirohide ;
Pfrieger, Frank W. ;
Meletis, Konstantinos ;
Frisen, Jonas .
CELL STEM CELL, 2010, 7 (04) :470-482
[5]   Triarylmethanes, a new class of Cx50 inhibitors [J].
Bodendiek, Silke B. ;
Rubinos, Clio ;
Trelles, Maria Pilar ;
Coleman, Nichole ;
Jenkins, David Paul ;
Wulff, Heike ;
Srinivas, Miduturu .
FRONTIERS IN PHARMACOLOGY, 2012, 3
[6]   Multiple steps characterise ventricular layer attrition to form the ependymal cell lining of the adult mouse spinal cord central canal [J].
Canizares, Marco A. ;
Albors, Aida Rodrigo ;
Singer, Gail ;
Suttie, Nicolle ;
Gorkic, Metka ;
Felts, Paul ;
Storey, Kate G. .
JOURNAL OF ANATOMY, 2020, 236 (02) :334-350
[7]   Nestin-Positive Ependymal Cells Are Increased in the Human Spinal Cord after Traumatic Central Nervous System Injury [J].
Cawsey, Thomas ;
Duflou, Johan ;
Weickert, Cynthia Shannon ;
Gorrie, Catherine Anne .
JOURNAL OF NEUROTRAUMA, 2015, 32 (18) :1393-1402
[8]   Spinal cord repair: advances in biology and technology [J].
Courtine, Gregoire ;
Sofroniew, Michael V. .
NATURE MEDICINE, 2019, 25 (06) :898-908
[9]   A First-in-Human, Phase I Study of Neural Stem Cell Transplantation for Chronic Spinal Cord Injury [J].
Curtis, Erik ;
Martin, Joel R. ;
Gabel, Brandon ;
Sidhu, Nikki ;
Rzesiewicz, Teresa K. ;
Mandeville, Ross ;
Van Gorp, Sebastiaan ;
Leerink, Marjolein ;
Tadokoro, Takahiro ;
Marsala, Silvia ;
Jamieson, Catriona ;
Marsala, Martin ;
Ciacci, Joseph D. .
CELL STEM CELL, 2018, 22 (06) :941-+
[10]   Ascl1 Balances Neuronal versus Ependymal Fate in the Spinal Cord Central Canal [J].
Di Bella, Daniela J. ;
Carcagno, Abel L. ;
Lucia Bartolomeu, M. ;
Belen Pardi, M. ;
Loehr, Heiko ;
Siegel, Nicole ;
Hammerschmidt, Matthias ;
Marin-Burgin, Antonia ;
Lanuza, Guillermo M. .
CELL REPORTS, 2019, 28 (09) :2264-+
123456