Brain Serotonin Function in MDMA (Ecstasy) Users: Evidence for Persisting Neurotoxicity

Abstract

3,4-methylenedioxymethamphetamine (MDMA; ecstasy) is a popular recreational drug, and clinical trials are investigating MDMA as a treatment for anxiety. Animal models suggest that MDMA causes chronic serotonin neurotoxicity, especially in neocortex. Given the role of serotonin in a broad range of brain functions, it is critical to determine whether MDMA is associated with serotonin neurotoxicity in humans. Studies examining the presynaptic serotonin reuptake transporter (SERT) as a marker of serotonin axon integrity in MDMA users have generally found reductions in SERT binding (McCann et al, 2008; Urban et al, 2012; Kish et al, 2010). Although there is some evidence for SERT recovery in subcortical regions with prolonged abstinence (Buchert et al, 2006), there is little evidence suggesting SERT recovery in neocortex. In contrast to the SERT, the postsynaptic serotonin-2A receptor can serve as an indicator of presynaptic serotonin release if it upregulates in the face of reduced agonist signaling. We recently examined the status of neocortical serotonin-2A receptors in female MDMA users who had a median abstinence from MDMA of nearly 2 years. We predicted that MDMA-induced reductions in serotonin would lead to increased serotonin-2A receptors in MDMA users, and that lifetime MDMA use would be positively correlated with receptor level. Consistent with MDMA-induced chronic reductions in serotonin signaling, long-abstinent MDMA users had increased levels of serotonin-2A receptors in multiple cortical areas, and higher lifetime MDMA use predicted higher receptor levels (Figure 1) with no evidence for receptor normalization with long-term abstinence (Di Iorio et al, 2012). Urban et al 2012 also found increased serotonin-2A levels in MDMA users and they also measured SERT in the same cohort. SERT binding was lower in brain regions where the serotonin-2A receptors were elevated, a finding consistent with reduced serotonin and consequent upregulation of the serotonin-2A receptor. Figure 1 (a and b) Right-hemisphere and bilateral superior regions are depicted, respectively, in which lifetime ecstasy use correlates positively with serotonin-2A-binding potential in the ecstasy (MDMA) user group after adjusting for birth control, estrogen, ... If MDMA users actually have reduced serotonin signaling, there should be predictable effects of MDMA-induced reductions in serotonin on cortical neurophysiology. Serotonin is largely inhibitory in neocortex, therefore reductions in serotonin signaling should produce increased cortical excitability, reflected as increased activation with fMRI. In support of this hypothesis, we found that greater MDMA use was associated with greater occipital activation during visual stimulation in MDMA users, a finding consistent with increased cortical excitability and in line with the consequences of reduced serotonin signaling (Bauernfeind et al, 2011).