Dopamine-β-hydroxylase-like immunoreactivity in the fetal cerebral cortex of the rat: Noradrenergic ascending pathways and terminal fields

A topographical analysis of the noradrenergic innervation in the fetal rat cerebral cortex was carried out from embryonic day 15 (E15) until birth using antibodies raised against dopamine-β-hydroxylase (DBH). During late gestation DBH-like immunoreactive axons were coursing through the basal forebrain along three pathways: The first noradrenergic axons were seen at E17 in the frontal pole, the lateral frontal cortex, and in the medial frontal cortex which also receives a dopaminergic input. The innervation then extended caudally, but the dorsal part of the cortex was reached after a 2-day delay when compared to the medial and lateral parts. The arrival of noradrenergic axons did not parallel the gradient of cortical neurogenesis; however, all cortical areas were innervated at birth. DBH positive fibers reached a given cortical region simultaneously through the marginal and intermediate zones and then invaded the cortical plate.