Spantide II, a novel tachykinin antagonist, and galanin inhibit plasma extravasation induced by antidromic C-fiber stimulation in rat hindpaw.

The effect of intradermal injection of Spantide II, a novel tachykinin antagonist, and the neuropeptide galanin on neurogenic plasma extravasation induced by antidromic stimulation of C-fibers in the sciatic nerve was examined in the hindpaws of rats. Activation of C-fibers by antidromic sciatic nerve stimulation (2 Hz, 5 min) consistently evoked a localized plasma extravasation of Evans Blue in the skin area of the hindpaw innervated by the sciatic nerve. Intradermal injection of 3 nmol Spantide II significantly inhibited this response. The plasma extravasation was nearly totally abolished when the concentration of Spantide II was increased to 9 nmol. Intradermal injection of 1.5 and 15 nmol galanin also inhibited plasma extravasation. Intradermal injection of 9 nmol Spantide II effectively blocked the plasma extravasion in the hindpaw induced by 8 nmol intravenous substance P. Plasma extravasation induced by intravenous substance P was also inhibited by the higher, but not by the lower, dose of galanin injected intradermally. The present results indicate that Spantide II, a potent non-toxic tachykinin antagonist, effectively blocks the neurogenic plasma extravasation induced by antidromic C-fiber stimulation, thus supporting the view that tachykinins play an important role in this neurogenic inflammatory process. It is further shown that galanin, a naturally occurring neuropeptide present in primary afferents, also inhibits C-fiber activation-evoked plasma extravasation, indicating an interaction between galanin and tachykinins in the peripheral terminals of primary afferents, possibly through both pre- and postsynaptic mechanisms.