methylone and 5-6-methylenedioxy-2-aminoindane

Designer drugs belong to a group of legally or illegally produced substances that are structurally and pharmacologically very similar to illicit drugs. In the past, designer drugs were often used during all-night dance parties, but they are now consumed in multiple settings from college bars to parks to private house parties. Most of these club drugs can be bought on legal websites and home-delivered for private parties. Recently, legal highs have once again become a burning media issue across the world. Our review will focus on GHB and synthetic cathinones. Literature searches were conducted for the period from 1975 to July 2010 using PubMed, EMBASE, PsycInfo, Internet underground and governmental websites using the following keywords alone or in combination: designer drugs, club drugs, party drugs, GHB, synthetic cathinones, mephedrone, methylone, flephedrone, MDAI, and MDVP. Available epidemiological, neurobiological, and clinical data for each compound are described. There is evidence that negative health and social consequences may occur in recreational and chronic users. The addictive potential of designer drugs is not weak. Non-fatal overdoses and deaths related to GHB/GBL or synthetic cathinones have been reported. Clinicians must be careful with GBL or synthetic cathinones, which are being sold and used as substitutes for GHB and MDMA, respectively. Interventions for drug prevention and harm reduction in response to the use of these drugs should be implemented on the Internet and in recreational settings. Prevention, Information, Action, and Treatment are the main goals that must be addressed for this new potentially addictive problem.

Topics: Alkaloids; Animals; Designer Drugs; Humans; Illicit Drugs; Indans; Methamphetamine; N-Methyl-3,4-methylenedioxyamphetamine; Sodium Oxybate; Substance-Related Disorders

New psychoactive substances (NPS) are still an emerging issue in clinical and forensic toxicology. Information about their cytotoxic potential is limited or even unavailable before distribution and thus their intake can be of high risk for consumers. The aim of the presented study was to develop a strategy to identify cytotoxic potential of NPS based on a high content screening assay (HCSA) using HepG2 cell line and four fluorescent dyes, namely Hoechst33342, TMRM, CAL-520, and TOTO-3. The HCSA was optimized to work without an automated analyzer by using the model compounds fluvastatin, paracetamol, propranolol, and simvastatin. The following parameters were monitored: stained nuclei as a measure for cell count as well as nuclear size and nuclear intensity (all Hoechst33342), mitochondrial membrane potential (TMRM), cytosolic calcium level (CAL-520), and plasma membrane integrity (TOTO-3). The present study showed strong cytotoxic potential for the NPS 5F-PB-22 and MDAI, moderate effects for MDMA, MDPV, methylone, cathinone, 4-MEC, and mephedrone, and no toxic effects for methamphetamine. To assess the metabolic suitability of HepG2 cells under the chosen conditions, cell culture supernatants were analyzed by liquid chromatography-high resolution-tandem mass spectrometry. Metabolites were merely detected for lipophilic drugs such as 5F-PB-22 and MDPV and in addition with a much lower abundance in comparison to the parent compound but the study only allowed a qualitative look for metabolites and the used liver cell line might not ideal when considering metabolism.

Topics: Acetaminophen; Alkaloids; Biological Assay; Chromatography, Liquid; Fluorescent Dyes; Fluvastatin; Hep G2 Cells; Hepatocytes; Humans; Illicit Drugs; Indans; Indoles; Membrane Potential, Mitochondrial; Methamphetamine; N-Methyl-3,4-methylenedioxyamphetamine; Propranolol; Quinolines; Simvastatin; Tandem Mass Spectrometry; Toxicity Tests