Histamine H3 receptor-mediated inhibition of noradrenaline release in pig retina discs

Abstract

Discs of pig retina were preincubated with ³H-noradrenaline, ³H-dopamine or ³H-serotonin and then superfused. Electrical field stimulation increased the outflow of tritium from discs preincubated with ³H-noradrenaline or ³H-dopamine, but no from discs preincubated with ³H-serotonin. The tritium content at the end of superfusion was similar in discs preincubated with ³H-noradrenaline or ³H-dopamine but about tenfold lower in discs preincubated with ³H-serotonin. The tritium content in discs preincubated with ³H-noradrenaline was markedly reduced when desipramine was present during preincubation but was not affected by selective inhibitors of dopamine and serotonin uptake. The tritium content in discs preincubated with 3Hdopamine and ³H-serotonin, in contrast, was reduced or tended to be reduced by a selective dopamine and serotonin uptake inhibitor, respectively. The electrically evoked overflow of tritium from discs preincubated with ³H-noradrenaline was abolished by tetrodotoxin or omission of Ca²⁺. In discs superfused with desipramine, the electrically evoked overflow was enhanced by phentolamine but not affected by histamine. When both desipramine and phentolamine were present in the superfusion medium, histamine inhibited the evoked overflow (pIC₁₅ 6.85). This effect was mimicked by the histamine H₃ receptor agonist R-(−)-α-methylhistamine as well as by its S-(+)-enantiomer (pIC₁₅ 7.85 and 5.30, respectively) but not by the H₁ receptor agonist 2-(2-thiazolyl)ethylamine and the H₂ receptor agonist dimaprit (each 10 μmol/l). The inhibitory effect of histamine was abolished by the H₃ receptor antagonist thioperamide 0.32 μmol/l and attenuated by impromidine 3.2 μmol/l but not affected by the H₁ receptor antagonist dimetindene 3.2 μmol/l and the H₂ receptor antagonist ranitidine 10 μmol/l. The results suggest that, in the pig retina, noradrenaline is taken up into, and released from, noradrenergic neurones (most likely vascular postganglionic sympathetic nerve fibres, less probably tissue-specific noradrenergic neurones of the retina) and that noradrenaline release is subject to modulation via H₃ receptors and probably also a-adrenoceptors.