The establishment of the mammalian neocortex is often explained phylogenetically by an evolutionary change in the pallial neuronal progenitors of excitatory projection neurons. It remains unclear, however, whether and how the evolutionary change in inhibitory interneurons, which originate outside the neocortex, has been involved in the establishment of the neocortex. In this study, we transplanted chicken, turtle, mouse, and marmoset medial ganglionic eminence (MGE) cells into the embryonic mouse MGE in utero and compared their migratory behaviors. We found that the MGE cells from all of the species were able to migrate through the mouse neocortical subventricular zone and that both the mouse and marmoset cells subsequently invaded the neocortical cortical plate (CP). However, regardless of their birthdates and interneuron subtypes, most of the chicken and turtle cells ignored the neocortical CP and passed beneath it, although they were able to invade the archicortex and paleocortex, suggesting that the proper responsiveness of MGE cells to guidance cues to enter the neocortical CP is unique to mammals. When chicken MGE cells were transplanted directly into the neocortical CP, they were able to survive and mature, suggesting that the neocortical CP itself is essentially permissive for postmigratory development of chicken MGE cells. These results suggest that an evolutionary change in the migratory ability of inhibitory interneurons, which originate outside the neocortex, was involved in the establishment of the neocortex by supplying inhibitory components to the network.dorsal pallium | GABAergic interneurons | tangential migration | mammalian evolution | interspecies transplantation D uring neocortical development, the projection neurons are generated in proliferative zones lying along the ventricle within the neocortex, namely the ventricular zone (VZ) and the subventricular zone (SVZ), and migrate radially to the brain surface (1-3) to form a cortical plate (CP) (4). Newly generated projection neurons migrate past the earlier-born neurons to settle just beneath the marginal zone (MZ), thereby constructing the neocortical CP in a birth date-dependent inside-out fashion (5). Although many (∼65% in humans) interneurons also seem to originate within the neocortical VZ/SVZ in primates (6, 7), most interneurons in most mammals (almost all interneurons in mice) seem to originate in the medial ganglionic eminence (MGE), caudal ganglionic eminence, and preoptic area located in the subpallium and migrate tangentially to the neocortex (8-11). After entering the neocortex, many MGE-derived interneurons, which constitute the majority of the interneurons in mice (9), continue to migrate tangentially through the neocortical SVZ and intermediate zone (IZ), and then, they change their trajectory and migrate to the brain surface so that they enter the CP and the MZ (12, 13).Phylogenetically, the neocortex is observed only in mammals, and because it evolved from the dorsal pallium of the ancestor of amniotes (mammals and saurop...
