Boundaries and inhibitory molecules in developing neural tissues
- 1 April 1995
- Vol. 13 (4), 233-254
- https://doi.org/10.1002/glia.440130402
Abstract
Numerous studies of the past decade have illuminated the importance of intercellular adhesion events for neural pattern formation. It has been documented that members of the Ig and cadherin gene superfamilies, that glycoproteins and, probably to some extent, proteoglycans of the extracellular matrix play a role in this context. Recent observations suggest that, in addition to adhesive interactions, repulsive and/or inhibitory phenoma are also of importance in regulating neural pattern formation. Several molecules are under study which are cosidered possible mediators of inhibitory interactions in the nervous system. The hypothesis has been advanced that some of these might be partially responsible for restrictive, boundary‐like properties ascribed to glial cells in developing and regenerating tissues. The current review summarizes these studies and focusses on molecular aspects of boundary and compartmentation phenomena.Keywords
This publication has 101 references indexed in Scilit:
- Polyclonal antibodies against NCAM and tenascin delay endplate reinnervationJournal of Neurocytology, 1994
- The netrins define a family of axon outgrowth-promoting proteins homologous to C. elegans UNC-6Cell, 1994
- Differential expression of tenascin after denervation, damage or paralysis of mouse soleus muscleJournal of Neurocytology, 1993
- Integrins: Versatility, modulation, and signaling in cell adhesionCell, 1992
- Repellent cues in axon guidanceCurrent Opinion in Neurobiology, 1992
- Afferent-boundary interactions in the developing neostriatal mosaicDevelopmental Brain Research, 1992
- Enhanced expression of the extracellular matrix molecule J1/tenascin in the regenerating adult mouse sciatic nerveJournal of Neurocytology, 1990
- Axonal guidance in the chick visual system: Posterior tectal membanes induce collapse of growth cones from the temporal retinaNeuron, 1990
- Glial and glycoconjugate boundaries during postnatal development of the central nervous systemDevelopmental Brain Research, 1987
- A light and electron microscopic study of the intraneuronal transport of horseradish peroxidase and wheat germ agglutinin-peroxidase conjugates in the rat visual systemJournal of Neurocytology, 1981