Tangentially migrating GABAergic cells of subpallial origin invade massively the pallium in developing sharks.

We studied the development of the GABAergic system in the telencephalon of the dogfish Scyliorhinus canicula using GABA and glutamate decarboxylase (GAD) immunocytochemistry. The earliest GABA-expressing cells appeared in the basal telencephalon (subpallium) of stage 24 embryos. Shortly after, the subpallium showed abundant GABA-expressing neuroblasts near the meningeal surface or migrating radially in the neuroepithelium. The limit between the GABA-expressing region and the remainder of the telencephalon (pallium) was sharp and coincides with the pallial/subpallial boundary. At stage 28, GABA-expressing cells with the morphology of tangentially migrating cells (showing a thick growth cone-like leading process) migrate from a dome-shaped protrusion of the lateral subpallium and extended laterally and rostrodorsally into the pallium following either a superficial route or coursing periventricularly. At later stages, abundant GABA-expressing cells were seen in various pallial regions and strings of GABA-expressing cells, possibly migrating, were also noted. The colonization of the dogfish pallium by GABA-expressing cells, originating from the subpallium, is strongly reminiscent of the palliopetal tangential migrations of GABA-expressing cells demonstrated in the telencephalon of mammals and follows similar routes. These results strongly suggest that tangential migrations of GABA-expressing cells appeared very early in vertebrate forebrain evolution.