Abuse-related neurochemical and behavioral effects of cathinone and 4-methylcathinone stereoisomers in rats

Hutsell, Blake A.; Baumann, Michael H.; Partilla, John S.; Banks, Matthew L.; Vekariya, Rakesh H.; Glennon, Richard A.; Negus, S. Stevens

doi:10.1016/j.euroneuro.2015.12.010

Cited by 20 publications

(31 citation statements)

References 27 publications

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“…As a result, the R (+) enantiomer displays a 50-fold greater selectivity than the S (−) enantiomer to promote monoamine release via DAT vs. SERT, and this stereoselectivity in neurochemical effects contributed to stereoselectivity in expression of abuse-related behavioral effects. It is unknown whether this stereoselectivity would also be apparent for other 4-R MCAT analogs, but a similar impact of stereochemistry was observed for isomers of 4-CH 3 cathinone [23]. Importantly, these results suggest that stereoselectivity at the chiral carbon at one end of the 4-R MCAT molecule can influence interactions of the 4-substituent at the other end of the molecule with its own portion of the DAT and SERT substrate-binding pockets.…”

Section: Stereoselective Effects Of Methcathinone and Mephedronementioning

confidence: 79%

“…The QSAR studies summarized above were conducted with racemic compounds, but more recent studies have identified an additional role for stereoselectivity as a determinant both of 4-R MCAT interactions with transporters and of ultimate expression of abuse-related effects [22, 23]. Specifically, methcathinone, methamphetamine, and many of their analogs possess a single chiral carbon atom (the α carbon signified by the asterisk in Fig.…”

Section: Stereoselective Effects Of Methcathinone and Mephedronementioning

confidence: 99%

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Decoding the Structure of Abuse Potential for New Psychoactive Substances: Structure–Activity Relationships for Abuse-Related Effects of 4-Substituted Methcathinone Analogs

Negus

Banks

2016

Neuropharmacology of New Psychoactive Substances (NPS)

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Many cathinone analogs act as substrates or inhibitors at dopamine, norepinephrine, and serotonin transporters (DAT, NET, SERT, respectively). Drug selectivity at DAT vs. SERT is a key determinant of abuse potential for monoamine transporter substrates and inhibitors, such that potency at DAT > SERT is associated with high abuse potential, whereas potency at DAT < SERT is associated with low abuse potential. Quantitative structure—activity relationship (QSAR) studies with a series of 4-substituted methcathinone analogs identified volume of the 4-position substituent on the methcathinone phenyl ring as one structural determinant of both DAT vs. SERT selectivity and abuse-related behavioral effects in an intracranial self-stimulation procedure in rats. Subsequent modeling studies implicated specific amino acids in DAT and SERT that might interact with 4-substituent volume to determine effects produced by this series of cathinone analogs. These studies illustrate use of QSAR analysis to investigate pharmacology of cathinones and function of monoamine transporters.

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Section: Stereoselective Effects Of Methcathinone and Mephedronementioning

confidence: 79%

Section: Stereoselective Effects Of Methcathinone and Mephedronementioning

confidence: 99%

Decoding the Structure of Abuse Potential for New Psychoactive Substances: Structure–Activity Relationships for Abuse-Related Effects of 4-Substituted Methcathinone Analogs

Negus

Banks

2016

Neuropharmacology of New Psychoactive Substances (NPS)

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“…Previously established ICSS studies on stereoselectivity of amphetamine and amphetamine-like compounds suggest a difference in isomer potency for compounds that are releasers at monoamine transporters. 33–35 …”

Section: Discussionmentioning

confidence: 99%

Effects of N-Alkyl-4-Methylamphetamine Optical Isomers on Plasma Membrane Monoamine Transporters and Abuse-Related Behavior

Battisti

Sitta

Harris

et al. 2018

ACS Chem. Neurosci.

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4-Methylamphetamine (4-MA) is an emerging drug of abuse that acts as a substrate at plasma membrane transporters for dopamine (DAT), norepinephrine (NET), and serotonin (SERT), thereby causing non-exocytotic release of monoamine transmitters via reverse transport. Prior studies by us showed that increasing the N-alkyl chain length of N-substituted 4-MA analogs converts 4-MA from a transportable substrate (i.e., releaser) at DAT and NET to a non-transported blocker at these sites. Here we studied the effects of the individual optical isomers of N-methyl-, N-ethyl-, and N-n-propyl 4-MA on monoamine transporters and abuse-related behavior in rats because action/function might be related to stereochemistry. Uptake inhibition and release assays were conducted in rat brain synaptosomes whereas electrophysiological assessments of drug-transporter interactions were examined using cell-based biosensors. Intracranial-self stimulation (ICSS) in rats was employed to assess abuse potential in vivo. The experimental evidence demonstrates that S(+)N-methyl 4-MA is a potent and efficacious releaser at DAT, NET, and SERT with the highest abuse potential among the test drugs whereas R(−)N-methyl 4-MA, is a less potent releaser with reduced abuse potential. The S(+)ethyl analog displays decreased efficacy as a releaser at DAT but retains full release activity at NET and SERT with a reduction in abuse-related effects; the R(−)ethyl analog has a similar profile but is less potent. S(+)N-Propyl 4-MA is a non-transported blocker at DAT and NET, but an efficacious releaser at SERT, whereas the R enantiomer is almost inactive. In conclusion, the S enantiomers of the N-alkyl 4-MA analogs are most potent. Lengthening the N-alkyl chain converts compounds from potent non-selective releasers showing abuse-related effects, to more selective SERT releasers with no apparent abuse potential.

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“…The abuse-related potential of biogenic amine releasing agents appears to be related to their ability to promote greater release via DAT than via SERT such that DAT-selective agents possess higher abuse liability (see Negus et al, 2007 and Hutsell et al, 2016 for extended discussion). Consistent with this concept is that R (+)mephedrone with 50-fold selectivity for DAT over SERT produced in rats greater locomotor stimulation and rewarding properties as measured by conditioned place preference and facilitation of ICSS than its S (-)enantiomer which produced weak locomotor stimulation and lacked rewarding properties (Gregg et al, 2015).…”

Section: Current Sar Studiesmentioning

confidence: 99%

“…Consistent with this concept is that R (+)mephedrone with 50-fold selectivity for DAT over SERT produced in rats greater locomotor stimulation and rewarding properties as measured by conditioned place preference and facilitation of ICSS than its S (-)enantiomer which produced weak locomotor stimulation and lacked rewarding properties (Gregg et al, 2015). For 4-methylcathinone ( 53 ), R (+)53 was less potent than its S -enantiomer to promote release at DAT, but displayed slightly greater DAT versus SERT selectivity and produced abuse-related effects in ICSS (Hutsell et al, 2016). These studies (i.e., those reported by Gregg et al, 2015 and Hutsell et al, 2016) were the first to show the subtle stereochemical relationship between the ability of optical isomers of cathinone analogs to behave as substrates at DAT and SERT and their stimulant or rewarding actions.…”

Section: Current Sar Studiesmentioning

confidence: 99%

Structure-Activity Relationships of Synthetic Cathinones

Glennon

Dukat

2016

Neuropharmacology of New Psychoactive Substances (NPS)

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Until recently, there was rather little interest in the structure-activity relationships (SARs) of cathinone analogs because so few agents were available, and because they represented a relatively minor drug abuse problem. Most of the early SAR was formulated on the basis of behavioral (e.g. locomotor and drug discrimination) studies using rodents. With the emergence on the clandestine market in the last few years of a large number of new cathinone analogs, termed “synthetic cathinones”, and the realization that they likely act at dopamine, norepinephrine, and/or serotonin transporters as releasing agents (i.e., as substrates) or reuptake inhibitors (i.e., as transport blockers), it has now become possible to better examine their SAR, and even their quantitative SAR (QSAR), in a more effective and systematic manner. An SAR picture is beginning to emerge and key structural features, such as the nature of the terminal amine, the size of the α substituent, stereochemistry, and the presence and position of aromatic substituents, are being found to impact action (i.e., as releasing agents or reuptake inhibitors) and transporter selectivity.

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Abuse-related neurochemical and behavioral effects of cathinone and 4-methylcathinone stereoisomers in rats

Cited by 20 publications

References 27 publications

Decoding the Structure of Abuse Potential for New Psychoactive Substances: Structure–Activity Relationships for Abuse-Related Effects of 4-Substituted Methcathinone Analogs

Decoding the Structure of Abuse Potential for New Psychoactive Substances: Structure–Activity Relationships for Abuse-Related Effects of 4-Substituted Methcathinone Analogs

Effects of N-Alkyl-4-Methylamphetamine Optical Isomers on Plasma Membrane Monoamine Transporters and Abuse-Related Behavior

Structure-Activity Relationships of Synthetic Cathinones

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