naphyrone and mephedrone

A growing number of novel substances have been abused as recreational drugs by young people in the United States (US), Europe, and Australia. Called "legal highs," these substances range from plant-based to completely synthetic compounds. Spice, Salvia, mephedrone, methylenedioxypyrovalerone (MDPV), and other cathinone derivatives have psychotropic effects and are marketed for recreational use through exploitation of inadequacies in existing controlled substance laws.. This article reviews available literature on the most common "legal highs" as well as discussing the scientific basis for the legal difficulties in controlling trafficking in these novel substances.. "Legal highs" continue to increase in use in the US, Europe, and Australia. These substances are powerful, can mimic effects of more traditional drugs of abuse, and are intentionally manufactured to circumvent existing controlled substance laws. As controlled substance legislation may be inadequate in the face of the quickly evolving legal highs, physicians are likely to see an increase in the prevalence of legal highs.

Topics: Benzodioxoles; Cannabinoids; Designer Drugs; Emergency Medicine; Humans; Illicit Drugs; Methamphetamine; Pentanones; Psychotropic Drugs; Pyrrolidines; Salvia; Substance-Related Disorders; Synthetic Cathinone

Synthetic cathinones are popular psychoactive substances that may cause skeletal muscle damage. In addition to indirect sympathomimetic myotoxicity, these substances could be directly myotoxic. Since studies in myocytes are currently lacking, the aim of the present study was to investigate potential toxicological effects by synthetic cathinones on C2C12 myoblasts (mouse skeletal muscle cell line). We exposed C2C12 myoblasts to 3-methylmethcathinone, 4-methylmethcathinone (mephedrone), 3,4-methylenedioxymethcathinone (methylone), 3,4-methylenedioxypyrovalerone (MDPV), alpha-pyrrolidinovalerophenone (α-PVP), and naphthylpyrovalerone (naphyrone) for 1 or 24 h before cell membrane integrity, ATP content, mitochondrial oxygen consumption, and mitochondrial superoxide production was measured. 3,4-Methylenedioxymethamphetamine (MDMA) was included as a reference compound. All investigated synthetic cathinones, as well as MDMA, impaired cell membrane integrity, depleted ATP levels, and increased mitochondrial superoxide concentrations in a concentration-dependent manner in the range of 50⁻2000 μM. The two pyrovalerone derivatives α-PVP and naphyrone, and MDMA, additionally impaired basal and maximal cellular respiration, suggesting mitochondrial dysfunction. Alpha-PVP inhibited complex I, naphyrone complex II, and MDMA complex I and III, whereas complex IV was not affected. We conclude that, in addition to sympathetic nervous system effects and strenuous muscle exercise, direct effects of some cathinones on skeletal muscle mitochondria may contribute to myotoxicity in susceptible synthetic cathinone drugs users.

Topics: Adenosine Triphosphate; Animals; Benzodioxoles; Cell Line; Methamphetamine; Mice; Mitochondria; Myoblasts; Oxygen Consumption; Pentanones; Psychotropic Drugs; Pyrrolidines; Superoxides; Synthetic Cathinone

Synthetic cathinones are a new class of psychostimulant substances. Rarely, they can cause liver injury but associated mechanisms are not completely elucidated. In order to increase our knowledge about mechanisms of hepatotoxicity, we investigated the effect of five frequently used cathinones on two human cell lines. Bupropion was included as structurally related drug used therapeutically. In HepG2 cells, bupropion, MDPV, mephedrone and naphyrone depleted the cellular ATP content at lower concentrations (0.2-1mM) than cytotoxicity occurred (0.5-2mM), suggesting mitochondrial toxicity. In comparison, methedrone and methylone depleted the cellular ATP pool and induced cytotoxicity at similar concentrations (≥2mM). In HepaRG cells, cytotoxicity and ATP depletion could also be demonstrated, but cytochrome P450 induction did not increase the toxicity of the compounds investigated. The mitochondrial membrane potential was decreased in HepG2 cells by bupropion, MDPV and naphyrone, confirming mitochondrial toxicity. Bupropion, but not the other compounds, uncoupled oxidative phosphorylation. Bupropion, MDPV, mephedrone and naphyrone inhibited complex I and II of the electron transport chain, naphyrone also complex III. All four mitochondrial toxicants were associated with increased mitochondrial ROS and increased lactate production, which was accompanied by a decrease in the cellular total GSH pool for naphyrone and MDPV. In conclusion, bupropion, MDPV, mephedrone and naphyrone are mitochondrial toxicants impairing the function of the electron transport chain and depleting cellular ATP stores. Since liver injury is rare in users of these drugs, affected persons must have susceptibility factors rendering them more sensitive for these drugs.

Topics: Adenosine Triphosphate; Alkaloids; Benzodioxoles; Bupropion; Chemical and Drug Induced Liver Injury; Dose-Response Relationship, Drug; Electron Transport Chain Complex Proteins; Hep G2 Cells; Hepatocytes; Humans; Lactic Acid; Membrane Potential, Mitochondrial; Methamphetamine; Mitochondria, Liver; Oxidative Phosphorylation; Oxidative Stress; Oxygen Consumption; Pentanones; Psychotropic Drugs; Pyrrolidines; Reactive Oxygen Species; Synthetic Cathinone

Workplace drug testing in Australia is usually adherent to one of two standards, AS/NZS 4308:2008 for urine or AS 4760:2006 for oral fluid. These standards prescribe the drugs tested, devices used and testing methodology followed by the testing agency. However, they are not comprehensive and for many years workers have been able to consume novel psychoactive substances to avoid detection and without consequences. Here, we present a validated method for the detection of 32 Synthetic Stimulant and Hallucogenic drugs, commonly sold as bath salts, in oral fluid. These drugs are cathinone, ephedrone, methylone, flephedrone, MDA, PMA, methedrone, TMA, MDMA, butylone, mephedrone, MDEA, MEC, pentedrone, MBDB, MTA, Alpha-PVP, MPBP, 2C-B, MDPV, DOB, 2C-T-2, TFMPP, DOET, 2C-T-7, naphyrone, MDAI, FMA, DMA, 25C-NBOMe, 25B-NBOMe and 25T4-NBOMe. Sample preparation was undertaken using a simple protein precipitation in acetonitrile. Chromatographic separation was achieved in 7.5 min on a Kinetex F5 column (50 mm × 3 mm × 2.6 μm) using 0.1% formic acid in water and acetonitrile as the mobile phases. The method was validated with limit of detection (1 ng/mL), limit of quantitation (2.5 ng/mL), selectivity, linearity (2.5-500 ng/mL), accuracy (85.3-108.4% of the target concentration) and precision (1.9-14%). This method was applied to 12 samples previously submitted for routine testing and two were found to contain 2-CB and DOB (5 and 4 ng/mL) and, MPBP and TFMPP (both at 4 ng/mL). This method provides for the rapid detection of a large number of compounds in oral fluid which is readily applicable to routine testing laboratories.

Topics: Alkaloids; Anisoles; Australia; Benzylamines; Dimethoxyphenylethylamine; Humans; Illicit Drugs; Methamphetamine; Pentanones; Phenethylamines; Propiophenones; Psychotropic Drugs; Pyrrolidines; Saliva; Substance Abuse Detection

The use of synthetic methcathinones, components of "bath salts," is a world-wide health concern. These compounds, structurally similar to methamphetamine (METH) and 3,4-methylendioxymethamphetamine (MDMA), cause tachycardia, hallucinations and psychosis. We hypothesized that these potentially neurotoxic and abused compounds display differences in their transporter and receptor interactions as compared to amphetamine counterparts. 3,4-Methylenedioxypyrovalerone and naphyrone had high affinity for radioligand binding sites on recombinant human dopamine (hDAT), serotonin (hSERT) and norepinephrine (hNET) transporters, potently inhibited [³H]neurotransmitter uptake, and, like cocaine, did not induce transporter-mediated release. Butylone was a lower affinity uptake inhibitor. In contrast, 4-fluoromethcathinone, mephedrone and methylone had higher inhibitory potency at uptake compared to binding and generally induced release of preloaded [³H]neurotransmitter from hDAT, hSERT and hNET (highest potency at hNET), and thus are transporter substrates, similar to METH and MDMA. At hNET, 4-fluoromethcathinone was a more efficacious releaser than METH. These substituted methcathinones had low uptake inhibitory potency and low efficacy at inducing release via human vesicular monoamine transporters (hVMAT2). These compounds were low potency (1) h5-HT(1A) receptor partial agonists, (2) h5-HT(2A) receptor antagonists, (3) weak h5-HT(2C) receptor antagonists. This is the first report on aspects of substituted methcathinone efficacies at serotonin (5-HT) receptors and in superfusion release assays. Additionally, the drugs had no affinity for dopamine receptors, and high-nanomolar to mid-micromolar affinity for hSigma1 receptors. Thus, direct interactions with hVMAT2 and serotonin, dopamine, and hSigma1 receptors may not explain psychoactive effects. The primary mechanisms of action may be as inhibitors or substrates of DAT, SERT and NET.

Topics: Benzodioxoles; Designer Drugs; Dopamine Plasma Membrane Transport Proteins; HEK293 Cells; Humans; Methamphetamine; Norepinephrine Plasma Membrane Transport Proteins; Pentanones; Propiophenones; Protein Binding; Pyrrolidines; Receptors, Serotonin; Serotonin Plasma Membrane Transport Proteins; Symporters; Synthetic Cathinone; Vesicular Monoamine Transport Proteins

Topics: Designer Drugs; Humans; Methamphetamine; Pentanones; Pyrrolidines