British Journal of Pharmacology
January 1, 2002
Annis O. Mechan, B. Moreno Esteban, Esther O’shea et al.
219 citations
MDMA (ecstasy) causes acute hyperthermia in rats by increasing dopamine release, which acts on D1 receptors, rather than through serotonin release. Blocking serotonin receptors or inhibiting serotonin reuptake did not prevent the rise in body temperature, but blocking D1 dopamine receptors with SCH 23390 did. The tail skin temperature did not increase, suggesting MDMA impairs heat dissipation. These findings indicate that dopamine, not serotonin, is the primary driver of MDMA-induced hyperthermia, which has implications for clinical treatment.
British Journal of Pharmacology
December 1, 2001
M. Isabel Colado, Jorge Camarero, Annis O. Mechan et al.
122 citations
MDMA (ecstasy) causes long-term damage to dopamine nerve terminals in the mouse striatum, accompanied by acute hyperthermia. Blocking NMDA receptors or using clomethiazole did not protect against this damage. The free radical trap PBN and the nitric oxide synthase inhibitor 7-NI were protective but also lowered body temperature. Two other NOS inhibitors, S-methyl-L-thiocitrulline and AR-R17477AR, provided significant neuroprotection with little effect on hyperthermia. MDMA increased free radical formation in the striatum, which was prevented by AR-R17477AR, which lacks radical-trapping activity. This suggests MDMA neurotoxicity involves radicals from MDMA or dopamine metabolites combining with nitric oxide to form damaging peroxynitrites.
British Journal of Pharmacology
July 4, 2005
A Richard Green, Esther O’shea, Kathryn S. Saadat et al.
70 citations
In rats, MDMA (ecstasy) causes hyperthermia at normal or warm room temperatures but hypothermia in cool conditions. At 15°C, MDMA rapidly lowered rectal temperature; this effect was blocked by a dopamine D2 receptor antagonist but not a D1 antagonist. A neurotoxic MDMA regimen reduced serotonin in the brain by about 30% after a week. This serotonin lesion did not affect tail temperature increases when rats moved from 20°C to 30°C, but led to lower tail temperatures when returned to 24°C. Acute MDMA in lesioned rats at 30°C caused a sustained drop in tail temperature. The findings suggest that thermoregulatory problems in MDMA-lesioned rats stem partly from impaired heat loss through the tail, a key heat-loss organ.