2010
DOI: 10.1007/s12311-010-0207-4
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Cadherins in Cerebellar Development: Translation of Embryonic Patterning into Mature Functional Compartmentalization

Abstract: Cadherins are cell adhesion molecules with multiple morphogenic functions in brain development, for example, in neuroblast migration and aggregation, axon navigation, neural circuit formation, and synaptogenesis. More than 100 members of the cadherin superfamily are expressed in the developing and mature brain. Most of the cadherins investigated, in particular classic cadherins and δ-protocadherins, are expressed in the cerebellum. For several cadherin subtypes, expression begins at early embryonic stages and … Show more

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Cited by 48 publications
(34 citation statements)
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References 122 publications
(230 reference statements)
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“…The embryonic origin of neurons determines much of their phenotype, including connections [Gilbert, 2000]; axons navigate through permissive developmentally defined molecular domains [Shimamura et al, 1995] that are recognized by way of ligand-receptor mechanisms [Tessier-Lavigne and Goodman, 1996;Kolodkin and Tessier-Lavigne, 2011] and establish contacts with cells on the basis of their expression of membrane molecules that are also determined by their site and date of origin [Redies et al, 2011]. Thus, developmental studies can offer relevant information for understanding the organizing principles of the brain connectome and predict both fiber tract trajectories and targets .…”
Section: From Developmentally Defined Molecular Domains To the Formatmentioning
confidence: 99%
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“…The embryonic origin of neurons determines much of their phenotype, including connections [Gilbert, 2000]; axons navigate through permissive developmentally defined molecular domains [Shimamura et al, 1995] that are recognized by way of ligand-receptor mechanisms [Tessier-Lavigne and Goodman, 1996;Kolodkin and Tessier-Lavigne, 2011] and establish contacts with cells on the basis of their expression of membrane molecules that are also determined by their site and date of origin [Redies et al, 2011]. Thus, developmental studies can offer relevant information for understanding the organizing principles of the brain connectome and predict both fiber tract trajectories and targets .…”
Section: From Developmentally Defined Molecular Domains To the Formatmentioning
confidence: 99%
“…For example, in the spinal cord, the LIM-hd TF Islet1 regulate the expression of Neuropilin 1 and Slit2 [Lee et al, 2015], molecules related to the Robo-Slit and Neuropilin-Semaphorin ligand-receptor signaling that play a role in guidance during cell migration and axonal pathfinding [Tessier-Lavigne and Goodman, 1996]. In the thalamus, Lhx2 and Lhx9 were shown to regulate the expression of Protocadherin 10 [Peukert et al, 2011], a molecule of the cadherin/protocadherin family that has been involved in cell aggregation, axonal pathfinding, and synaptogenesis by homotypic binding of structures expressing the same combinatorial molecular code [Redies, 2000;Neudert and Redies, 2008;Redies et al, 2011].…”
Section: From Developmentally Defined Molecular Domains To the Formatmentioning
confidence: 99%
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“…In this special issue, Redies provides a review of this extensive literature with detailed characterization of cadherinexpressing Purkinje cell stripes and their transient separation by granule cell raphes [36]. The issues that are very nicely discussed include the relationship between embryonic and adult stripes and zones, and the homotypic binding model whereby the precision of cerebellar cell migration as well as afferent and efferent zonal connections are thought to be guided by mutual expression of the same cadherin gene.…”
mentioning
confidence: 99%
“…Regionalized expression of different types of cadherins has also been shown to promote cell segregation. Indeed, cadherins show regionally restricted patterns of expression in a variety of developmental contexts, and their tissue-specific expression often coincides with the presence of sharp boundaries between domains of expression (i.e., [30][31][32][33][34][35][36]). In the mouse telencephalon for example, the complementary expression of cadherin-6 and R-cadherin promotes segregation between cortex and striatum [34].…”
Section: Cadherins and Differential Adhesionmentioning
confidence: 99%