The influence of auditory and lithium stimulation on blood and brain serotonin in the normal rat and in that susceptible to audiogenic convulsions

• Published in: Physiologie (Bucarest) Vol. 23; no. 3; p. 167
• Main Authors: Uluitu, M, Chiş, R, Petec, G
• Format: Journal Article
• Language: English
• Published: Romania 01.07.1986
• Subjects: Acoustic Stimulation; Animals; Biological Transport - drug effects; Brain Chemistry - drug effects; Lithium - pharmacology; Lithium - urine; Male; Rats; Rats, Inbred Strains; Seizures - metabolism; Serotonin - blood; Serotonin - metabolism
• ISSN: 1011-6206

Investigations were carried out in two groups of male rats: a group susceptible to audiogenic convulsions and a control group. The following parameters were determined under basal conditions and 24 and 48 hours after intraperitoneal administration of a single lithium carbonate dose (0.67 mEq/animal), before and after auditory stimulation: serotonin content in the blood and brain tissue (separately from the hypothalamus, rhinencephalon, midbrain and sensory-motor cerebral cortex) by fluorimetry: water-saline retention, renal potassium elimination, the dynamics of renal lithium elimination. The results showed that in the rats prone to audiogenic convulsions, blood serotonin concentrations are twice those in the controls, whereas serotonin levels in the brain are lower than in the controls. The administration of lithium is followed by a decrease in blood serotonin in the animals with audiogenic convulsions but does not influence the serotonin content in the brain. Acoustic stimulation does not influence the behaviour of the controls but induces convulsions in the animals sensitive to noise. After auditory stimulation under basal conditions or 48 hours after the administration of lithium a decrease takes place in cerebral serotonin and an increase in blood serotonin in the controls whereas in the rats sensitive to noise, cerebral serotonin increases and blood serotonin decreases on stimulation under basal conditions due to the convulsions and metabolic alterations induced by the latter. These findings suggest the existence of different mechanisms for the transport of serotonin in the blood of rats prone to audiogenic convulsions. These mechanisms may be influenced either by acid catabolites resulting from convulsive activity or by the administration of lithium. The latter may induce persistent alterations in the blood transporter, as appears to result from the observation at 48 hours after the administration of lithium.