Abstract
Reelin-Disabled-1 (Dab1) signaling has a well-established role in regulating neuronal migration during brain development. Binding of Reelin to its receptors induces Dab1 tyrosine phosphorylation. Tyrosine-phosphorylated Dab1 recruits a wide range of SH2 domain-containing proteins and activates multiple signaling cascades, resulting in cytoskeleton remodeling and precise neuronal positioning. In this review, we summarize recent progress in the Reelin-Dab1 signaling field. We focus on Dab1 alternative splicing as a mechanism for modulating the Reelin signal in developing brain. We suggest that correct positioning of neurons in the developing brain is at least partly controlled by alternatively-spliced Dab1 isoforms that differ in the number and type of tyrosine phosphorylation motifs that they contain. We propose a model whereby different subsets of SH2 domain-containing proteins are activated by different Dab1 isoforms, resulting in coordinated migration of neurons.
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