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NSC 243 Serotonin 5-HT staining of dorsal and median raphe nuclei Functional Roles of 5-HT • General tone of NS – Repetitive activities like grooming activate 5-HT neurons • 5-HT stimulates CRH (corticotropin-releasing hormone) release from hypothalamus • 5-HT has negative effects on the ability of light to reset the circadian clock • 5-HT activation decreases food consumption and drugs that inhibit 5-HT stimulate food intake – Effect on satiety Serotonin synthesis Synthesis takes place in the terminal Stimulation induced regulation of 5-HT production Increasing tryptophan increases 5-HT release Effect of egg protein diet on tryptophan:LNAA ratio British Journal of Nutrition (2011), 105, 611–617 Inactivation of 5-HT signal SERT Serotonin inactivation is a target of many pharmaceuticals * * Serotonin transporters Inhibition of SERT • Tricyclic antidepressants like imipramine, SSRI’s like prozac • Inhibit SERT, increase 5-HT levels • Effects take weeks to develop – Compensatory changes? Transient regulation of monoamine transporters Regulation by phosphorylation • Model: – Depolarization triggers 5-HT release, Na+ influx – Disruption of Na+ gradient disrupts transport, allows 5-HT to diffuse away – Phosphorylation by PKC also decreases SERT activity in absence of high 5-HT – Low 5-HT levels lead to decreased levels of SERT and SERT activity (& vice versa) • Cell surface localization? Regulation of 5-HT release • Tryptophan availability • Firing rate of neuron (pretty constant) • Autoreceptors – Somatodendritic – Terminal Effect of 5-HT autoreceptors * * Regulation of 5-HT release • Autoreceptors – Somatodendritic – “activity modulating” – Terminal – “release modulating” • Drug effects: tryptophan, SSRI, MAO inhibitors • Meant to increase 5-HT; actually can inhibit raphe firing via autoreceptors! Regulation of 5-HT release • Effects of Drugs: Amph, Ecstasy (MDMA), and fenfluramine – Reverse SERT, block vesicular transport – Destroy dorsal raphe terminals (not median) – Tax energy: disrupt ion gradients – Non-exocytotic, non-Ca2+ dependent Toxic effects of MDMA Activity of pre-synaptic autoreceptor 5HT1A on firing Release of CA • Ca2+ dependent exocytosis (DBH release) • Release at varicosities Volume transmission Sites of preferential volume release of 5-HT • Dorsal Raphe • SN? Protected by glial sheaths surrounding synapses, so not in practice • SERT located far from synapses in these regions, allows for distance transmission • Explains why receptors are often nonjunctional
