By contrast, in the SCZ of wild-type (WT) mice, only a few immatu

By contrast, in the SCZ of wild-type (WT) mice, only a few immature (but no mature) newly generated neurons were observed, suggesting that virtually all postnatally

generated immature neurons in the SCZ were eliminated by Bax-dependent PCD. Treatment of 2-month-old WT mice with a caspase inhibitor, or with the neurotrophic factor Quizartinib cost brain-derived neurotrophic factor, promoted the survival of adult-generated neurons, suggesting that it is the absence of sufficient neurotrophic signaling in WT SCZ that triggers the Bax-dependent, apoptotic PCD of newly generated SCZ neurons. Furthermore, following focal traumatic brain injury to the posterior brain, SCZ neurogenesis in WT mice was increased, and a subset of these newly generated neurons migrated toward the injury site. These data indicate that the adult SCZ maintains a neurogenic potential that could contribute to recovery in the brain in response to the injury-induced upregulation of neurotrophic signaling. “
“The subcortical projections to the marmoset frontal pole were mapped with the use of fluorescent tracer injections. The main thalamic PLX-4720 cell line projections, which originated in both the magnocellular and parvocellular subdivisions of the mediodorsal

nucleus, were topographically organized. Our results suggest the existence of a third, caudal subdivision of this nucleus, which is likely to be homologous to the macaque’s pars densocellularis. A substantial, but not topographically organized, projection to Brodmann’s area 10 originated in the medial part of the ventral anterior nucleus. Minor thalamic projections originated in the medial pulvinar nucleus and in the midline/intralaminar nuclei. Finally, the posterior thalamic group (including the limitans and suprageniculate nuclei) sent a small projection to rostral

area 10 that has not previously been documented in primates. The main extrathalamic projections stemmed from the claustrum, which contained as many as 50% of all subcortical labelled not neurons. Minor connections originated in the hypothalamus (mainly in the lateral anterior and lateral tuberal regions), dorsal periaqueductal grey matter, basal forebrain (nucleus basalis of Meynert and horizontal limb of the diagonal band of Broca), and amygdala (basal, accessory basal and lateral nuclei). The present results, combined with recent data on the cortical projections to area 10, reveal the frontal pole as a region that integrates information from multiple neural processing systems, including high-level sensory, limbic and working memory-related structures. Although the pattern of subcortical projections is similar to that previously described in the macaque, suggesting a homologous organization, the present data also suggest functional distinctions between medial and lateral sectors of area 10.

Comments are closed.