clinical effects

Last reviewed 01/2018

The effects of serotonin can be divided up according to target tissues:

• blood vessels:
• the overall effect is dependent on vessel size, distribution of receptors, and modulation of noradrenergic output
• conductance vessels tend to constrict
• transfer vessels: arterioles dilate, venules constrict and capillaries become more permeable; this favours the formation of oedema in the inflammatory response
• central nervous system:
• involved in sleep induction
• involved in vascular tone: underpin agonists use in cluster headache and migraine
• involved in mood: the basis of using selective serotonin uptake inhibitors
• facilitates firing of motorneurons
• involved in ability to differentiate sensory phenomena; reduction of its effect e.g. with the antagonist LSD, contributes to hallucinogenesis
• involved in temperature regulation in the hypothalamus
• gastrointestinal tract:
• contraction due to direct stimulation of smooth muscle and indirect inhibition of noradrenergic input
• stimulus for release includes vagus nerve and physical displacement of chromaffin cells
• free nerve endings: pain, possible role in acute inflammation

Drugs which influence the serotonergic system include methysergide, sumatriptan, ketanserin, odansetron and the serotonin selective reuptake inhibitors.