Gerbella et al. (2010) Cereb. Cortex, 20, 141–168], and compared them with those to area 8/FEF (frontal eye field). Both areas
45A and 45B were the targets of highly predominant projections from the mediodorsal nucleus (MD) and of additional projections, mostly from the magnocellular check details ventral anterior and the medial pulvinar nucleus. The projection profiles from different MD subdivisions clearly distinguished these two areas from one another and from area 8/FEF. Area 45A was the target of predominant projections from parvicellular MD and of minor, albeit robust, projections from magnocellular MD. The opposite was true for area 45B: magnocellular MD was the major source of projections and parvicellular MD contributed minor, albeit robust, projections. Furthermore, area 45B, but not area 45A, was targeted by robust projections from multiform MD, the principal thalamic nucleus for area 8/FEF. These results provide further evidence for the distinctiveness of areas 45A and 45B, and support the Natural Product Library idea that area 45B is affiliated with the frontal oculomotor system, challenging the proposed homology of this area with part of the human language-related area 45 (rostral part of Broca’s region). Furthermore, the present data provide evidence for potentially robust trans-thalamic (via magnocellular MD) afferent, as well as direct and reciprocal, amygdaloid
connections of areas 45A and 45B, suggesting the contribution of emotional information to the differential role of these two areas in non-spatial information processing. “
“GABAergic transmission regulates adult neurogenesis by exerting negative feedback on cell proliferation and enabling dendrite formation and outgrowth. Further, GABAergic Phloretin synapses target differentiating dentate gyrus granule cells prior to formation of glutamatergic connections. GABAA receptors (GABAARs) mediating tonic (extrasynaptic) and phasic (synaptic) transmission are molecularly and functionally distinct, but their specific role in regulating adult neurogenesis is unknown. Using global and single-cell targeted gene deletion
of subunits contributing to the assembly of GABAARs mediating tonic (α4, δ) or phasic (α2) GABAergic transmission, we demonstrate here in the dentate gyrus of adult mice that GABAARs containing α4, but not δ, subunits mediate GABAergic effects on cell proliferation, initial migration and early dendritic development. In contrast, α2-GABAARs cell-autonomously signal to control positioning of newborn neurons and regulate late maturation of their dendritic tree. In particular, we observed pruning of distal dendrites in immature granule cells lacking the α2 subunit. This alteration could be prevented by pharmacological inhibition of thrombospondin signaling with chronic gabapentin treatment, shown previously to reduce glutamatergic synaptogenesis.