We found a reduction of the distribution of PAs with age that selleck products paralleled the physiological changes. This age-related sharpening of PA spinal connections also paralleled CST development, suggesting coordinated PA–CST co-development rather than sequential development. This is likely to be important for the development of adaptive motor control. “
“Monoamines
such as serotonin and dopamine have been shown to regulate cortical interneuron migration but very little is known regarding noradrenaline. Similarly to other monoamines, noradrenaline is detected during embryonic cortical development and adrenergic receptors are expressed in transient embryonic zones of the pallium that contain migrating neurons. Evidence of a functional role for the adrenergic system in interneuron migration
is lacking. In this study we first investigated the expression pattern of adrenergic receptors in mouse cortical interneuron subtypes preferentially derived from the caudal ganglionic eminences, and found that they expressed different subtypes of adrenergic receptors. To directly monitor the effects of adrenergic receptor stimulation on interneuron migration we used time-lapse recordings in cortical slices and observed that alpha2 adrenergic receptors (adra2) receptor activation inhibits the migration of cortical interneurons in a concentration-dependent Pembrolizumab and reversible manner. Furthermore, we observed that following adra2 activation the directionality of migrating interneurons was significantly modified, suggesting that adra2 stimulation could modulate their responsiveness to guidance cues. Finally the distribution of cortical interneurons was altered in vivo in adra2a/2c-knockout mice. These results support the general hypothesis that adrenergic dysregulation occurring during embryonic development alters cellular processes involved in the formation of cortical circuits. In rodents, cortical interneurons are mainly generated in the medial and caudal ganglionic eminences of the subpallium and migrate tangentially to reach the developing cortex (Wonders & Anderson,
2006; Gelman & Marin, Sinomenine 2010; Rudy et al., 2011). The specification and migration of cortical interneurons is controlled by a combinatorial cascade of transcription factors which regulates a variety of receptors and effectors required for their proper response to cell-extrinsic cues (Flames & Marin, 2005; Chedotal & Rijli, 2009). Among these external cues, monoamines such as serotonin and dopamine have been shown to regulate cortical interneuron migration (Crandall et al., 2007; Riccio et al., 2009). Similarly to serotonin and dopamine, noradrenaline is another monoamine which is detected during cortical development and has been suggested as modulating cellular processes involved in the formation of cortical circuits (Lidow & Rakic, 1994).