Nociceptive sensory neurons derive from contralaterally migrating, fate-restricted neural crest cells.

Neural crest cells (NCCs) are a transient population of multipotent progenitors that give rise to numerous cell types in the embryo. An unresolved issue is the degree to which the fate of NCCs is specified prior to their emigration from the neural tube. In chick embryos, we identified a subpopulation of NCCs that, upon delamination, crossed the dorsal midline to colonize spatially discrete regions of the contralateral dorsal root ganglia (DRG), where they later gave rise to nearly half of the nociceptor sensory neuron population.

NELL2 promotes motor and sensory neuron differentiation and stimulates mitogenesis in DRG in vivo.

We previously identified a secreted glycoprotein, neural epidermal growth factor-like like 2 (NELL2), in a subtraction screen designed to identify molecules regulating sensory neurogenesis and differentiation in the chick dorsal root ganglion (DRG). Characterization of NELL2 expression during embryogenesis revealed that NELL2 was specifically expressed during the peak periods of both sensory and motor neuron differentiation, and within the neural crest was restricted to the sensory lineage. We now provide evidence for a function for NELL2 during neuronal development.

PACAP promotes sensory neuron differentiation: blockade by neurotrophic factors.

Developing neurons encounter a panoply of extracellular signals as they differentiate. A major goal is to identify these extrinsic cues and define the mechanisms by which neurons simultaneously integrate stimulation by multiple factors yet initiate one specific biological response. Factors that are known to exert potent activities in the developing nervous system include the NGF family of neurotrophic factors, ciliary neurotrophic factor (CNTF), and pituitary adenylate cyclase-activating peptide (PACAP).