Effect of substance P on the 5,7-dihydroxytryptamine induced alteration of the postnatal development of central serotonin neurons

Systemic treatment with the serotonin neurotoxin 5,7-dihydroxytryptamine [5,7-HT]in the neonatal stage leads to a permanent alteration of the postnatal development of the serotonin neurons in rat brain with denervation of distant nerve terminal projections and hyperinnervation in regions close to the serotonin perikarya. Intracisternal administration of substance P was found to counteract both the denervation and the hyperinnervation, as evaluated by measuring endogenous serotonin levels and [3H]-serotonin uptake in vitro. Furthermore, substance P was found to potentiate the reduction of serotonin induced by tryptophan hydroxylase inhibition with alpha-propyldopacetamide, indicating that substance P can produce an increase in serotonin utilization and turnover. The results suggest that substance P has a degeneration preventing and/or regrowth stimulatory effect on damaged serotonin neurons during ontogeny.     

Effect of substance P on neonatally axotomized noradrenaline neurons in rat brain

Transection (axotomy) of the dorsal tegmental noradrenaline bundle in the neonatal stage leads to a permanent degeneration of noradrenaline nerve terminal projections distal to the lesion (e.g. in the neocortex), while projections proximal to the lesion increase their nerve terminal density (e.g. in the cerebellum). These structural changes are reflected by marked reductions and elevations respectively of the endogenous noradrenaline levels, [3H]-noradrenaline uptake in vitro and nerve density as demonstrated by fluorescence histochemistry. Intracisternal administration of substance P after the transection did not alter these noradrenaline parameters in the neocortex, whereas dose-dependent and significant increases were found in the cerebellum and pons-medulla. The results indicate that substance P may have a growth-stimulatory effect on damaged locus coeruleus noradrenaline neurons in the CNS during ontogeny.