Protection against 3,4‐methylenedioxymethamphetamine‐induced neurodegeneration produced by glutathione depletion in rats is mediated by attenuation of hyperthermia

O’Shea, Esther; Easton, Neil; Fry, J. R.; Green, A R; Marsden, C.A.

doi:10.1046/j.1471-4159.2002.00844.x

Cited by 18 publications

(13 citation statements)

References 54 publications

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“…This is an interesting possibility that requires more investigation because MDMA can also cause damage to DA nerve endings of the striatum (Yamamoto and Bankson 2005, Steele et al 1994, Green et al 2003, Cadet et al 2007), it causes hyperthermia (Vorhees et al 2010, Sprague et al 2003, O'Shea et al 2002) and it also increases glial activation (Thomas et al 2004a, Torres et al 2010, Orio et al 2009, O'Callaghan and Miller 1994, Pu et al 1996). It is known that rats are more sensitive than mice to 5-HT nerve ending damage after treatment with METH or MDMA but it is clear that mice, like humans, readily show DA neuronal deficits after intoxication with the substituted amphetamines or cathinone derivatives (Fleckenstein et al 2007, Yamamoto et al 2010, Cadet et al 2007, Fleckenstein et al 2000).…”

Section: Discussionmentioning

confidence: 99%

Mephedrone, an abused psychoactive component of ‘bath salts’ and methamphetamine congener, does not cause neurotoxicity to dopamine nerve endings of the striatum

Angoa‐Pérez

Kane

Francescutti

et al. 2012

Journal of Neurochemistry

104

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Mephedrone (4-methylmethcathinone) is a β-ketoamphetamine with close structural analogy to substituted amphetamines and cathinone derivatives. Abuse of mephedrone has increased dramatically in recent years and has become a significant public health problem in the US and Europe. Unfortunately, very little information is available on the pharmacological and neurochemical actions of mephedrone. In light of the proven abuse potential of mephedrone and considering its similarity to methamphetamine and methcathinone, it is particularly important to know if mephedrone shares with these agents an ability to cause damage to dopamine nerve endings of the striatum. Accordingly, we treated mice with a binge-like regimen of mephedrone (4X 20 or 40 mg/kg) and examined the striatum for evidence of neurotoxicity 2 or 7 days after treatment. While mephedrone caused hyperthermia and locomotor stimulation, it did not lower striatal levels of dopamine, tyrosine hydroxylase or the dopamine transporter under any of the treatment conditions used presently. Furthermore, mephedrone did not cause microglial activation in striatum nor did it increase glial fibrillary acidic protein levels. Taken together, these surprising results suggest that mephedrone, despite its numerous mechanistic overlaps with methamphetamine and the cathinone derivatives, does not cause neurotoxicity to dopamine nerve endings of the striatum.

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Section: Discussionmentioning

confidence: 99%

Mephedrone, an abused psychoactive component of ‘bath salts’ and methamphetamine congener, does not cause neurotoxicity to dopamine nerve endings of the striatum

Angoa‐Pérez

Kane

Francescutti

et al. 2012

Journal of Neurochemistry

104

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“…In rats and monkeys, MDMA is selectively neurotoxic to serotonergic terminals; however, in mice, MDMA depletion of dopaminergic terminals predominates (O’Shea et al, 2002; Green et al, 2003; Colado et al, 2004; Quinton and Yamamoto, 2006; Baumann et al, 2007; Capela et al, 2009). MDR1a appears to facilitate entry of MDMA into brain, with mice lacking MDR1a protein being more resistant to MDMA-induced reductions in DA and DAT expression in brain (Mann et al, 1997).…”

Section: Introductionmentioning

confidence: 99%

Mice Lacking Multidrug Resistance Protein 1a Show Altered Dopaminergic Responses to Methylenedioxymethamphetamine (MDMA) in Striatum

et al. 2009

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Multidrug resistance protein 1a (MDR1a) potentiated methylenedioxymethamphetamine (MDMA)-induced decreases of dopamine (DA) and dopamine transport protein in mouse brain one week after MDMA administration. In the present study, we examined if mdr1a wild-type (mdr1a +/+) and knock-out (mdr1a −/−) mice differentially handle the acute effects of MDMA on the nigrostriatal DA system 0-24 h following a single drug injection. 3-way ANOVA revealed significant 2-way interactions of strain X time (F 5,152 = 32.4, p< 0.001) and strain X dose (F 3,152 = 25.8, p< 0.001) on 3,4-dihydroxyphenylacetic acid (DOPAC)/DA ratios in mdr1a +/+ and −/− mice. 0.3-3 h after 10 mg/kg MDMA, DOPAC/DA ratios were increased in mdr1a +/+ mice, but decreased 0.3-1 h after MDMA in mdr1a −/− mice. 24 h after 10 mg/kg MDMA, DOPAC/DA ratios were increased 600% in mdr1a +/+ mice compared to saline-treated control mice, while in mdr1a −/− mice DOPAC/DA ratios were unchanged. Striatal MDMA and its metabolite, methylenedioxyamphetamine, concentrations by gas chromatography-mass spectrometry were similar in both strains 0.3 to 4 h after MDMA, discounting the role of MDR1a-facilitated MDMA transport in observed inter-strain differences. Increased DOPAC/DA turnover in mdr1a +/+ mice following MDMA is consistent with the previous report that MDMA neurotoxicity is increased in mdr1a +/+ mice. Increased DA turnover via monoamine oxidase in mdr1a +/+ vs −/− mice might increase exposure to neurotoxic reactive oxygen species.

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“…Small changes in ambient temperature cause large changes in both core body temperature and MDMA-induced 5-HT neurotoxicity in the rat (Schmidt et al 1990;Malberg and Seiden 1998). Additionally, a common feature of many drugs known to prevent MDMA toxicity relies on their ability to block the acute hyperthermia induced by MDMA, with such protection disappearing if the temperature of rats is kept elevated (Che et al 1995;Farfel and Seiden 1995;Malberg et al 1996;Taraska and Finnegan 1997;Colado et al 1998;Colado et al 1999;Hervias et al 2000;O'Shea et al 2002;Morley et al 2004). Other nonpharmacological manipulations capable of preventing the acute hyperthermic response caused by MDMA also provide substantial protection against the neurotoxic effects of the drug (Sprague et al 2003).…”

Section: Introductionmentioning

confidence: 99%

The relationship between core body temperature and 3,4-methylenedioxymethamphetamine metabolism in rats: implications for neurotoxicity

et al. 2007

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Protection against 3,4‐methylenedioxymethamphetamine‐induced neurodegeneration produced by glutathione depletion in rats is mediated by attenuation of hyperthermia

Cited by 18 publications

References 54 publications

Mephedrone, an abused psychoactive component of ‘bath salts’ and methamphetamine congener, does not cause neurotoxicity to dopamine nerve endings of the striatum

Mephedrone, an abused psychoactive component of ‘bath salts’ and methamphetamine congener, does not cause neurotoxicity to dopamine nerve endings of the striatum

Mice Lacking Multidrug Resistance Protein 1a Show Altered Dopaminergic Responses to Methylenedioxymethamphetamine (MDMA) in Striatum

The relationship between core body temperature and 3,4-methylenedioxymethamphetamine metabolism in rats: implications for neurotoxicity

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