Functional consequences of perinatal exposure
to 3,4-methylenedioxymethamphetamine in rat brain
Kelly PA, Ritchie IM, Quate L, McBean DE, Olverman HJ.
Department of Clinical Neurosciences,
University of Edinburgh, Western General Hospital,
Edinburgh, EH4 2XU, U.K.
Faculty of Health Sciences, Dietetics, Nutrition & Biological Sciences,
Queen Margaret University College,
Clerwood Terrace, Edinburgh EH12 8TS, U.K.
Department of Neuroscience, University of Edinburgh,
1 George Square, Edinburgh, EH8 9JZ, U.K.
Br J Pharmacol 2002 Dec 7;137(7):963-970
ABSTRACT1 In this study we have examined methylenedioxymethamphetamine (MDMA)-induced toxicity in perinatal rat brain, related this to normal development of serotonin transporter sites (SERT), and determined whether early exposure to MDMA subsequently alters cerebral function in adults. 2 Perinatal development of SERT was visualized and quantified using [(3)H]-paroxetine binding autoradiography in embryonic and neonatal rat brain from embryonic day 15 (E15) to postnatal day 30 (P30). Cerebral glucose utilization (lCMR(glu)) was measured by 2-deoxyglucose autoradiography in adult rats. 3 [(3)H]-Paroxetine binding was observed in forebrain from E18. From birth (P0), binding was organized into neocortical columns (75% higher at P10 than in adult) which declined toward adult levels between P20 and P25. 4 MDMA treatment (20 mg kg(-1) s.c. twice daily for four days) commencing at developmental stages from E15 (treatment given to dams) to P20, had no effect upon [(3)H]-paroxetine binding measured at P40. Treatments started on P25 or later resulted in significant decreases in [(3)H]-paroxetine binding (>/=46%). This was coincident with the development of adult patterns of binding in forebrain. 5 Despite the lack of MDMA-induced neurotoxicity, rats treated in utero (E15) showed increased lCMR(glu) in locus coeruleus (+37%), and in areas receiving ascending noradrenergic innervation, such as anterior thalamus (+44%) and septal nucleus (+24%). 6 These studies confirm that the susceptibility of serotonergic terminals to the neurotoxic properties of MDMA is absent in the immediate perinatal period, but also suggests that in utero MDMA exposure produces significant long-term effects on cerebral function by a mechanism as yet unknown.Mice
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