A GC-MS study of three major acidic metabolites of delta 1-tetrahydrocannabinol.

The major urinary metabolite of delta 1-tetrahydrocannabinol (delta 1-THC) (1), delta 1-THC-7-oic acid (2), has been extensively studied for several purposes, including testing in the workplace for drug abuse. Immunoassays in combination with more specific methods such as gas chromatography-mass spectrometry (GC-MS), are commonly used for verification of positive results in the screening. Two additional and recently synthesized acidic metabolites of 1, 4",5"-bisnor-delta 1-THC-7,3"-dioic acid (3) and 4"-hydroxy-delta 1-THC-7-oic acid (4), were studied to widen the scientific basis in the analysis. Five different derivatives were examined using GC-MS. In addition, a new deuterated internal standard for 2, [2H10]-2, was evaluated. According to our results, suitable derivatives of 2, 3, and 4, according to chromatographic properties, are the methyl ester/silyl ether (procedure a), the methyl ester/trifluoroacetate (procedure b), or the silyl ester/silyl ether (procedure c). The estimated recoveries of [2H5]-3 and [2H6]-4 using liquid-liquid extraction were 24% and 50%, respectively. The properties of [2H10]-2 as internal standard were equivalent to those of [2H9]-2 and, under the conditions used, did not appear to give rise to a significantly higher chromatographic resolution from that of 2. However, [2H10]-2 produces ions at different mass numbers, which makes it useful as a complement to the existing deuterated internal standards of 2.

Cannabinoid CB1 receptor dependent effects of the NMDA antagonist phencyclidine in the social withdrawal model of schizophrenia.

Clinical and laboratory findings suggest that cannabinoid signalling is implicated in schizophrenia. However, the interaction remains poorly understood, as data are often contradictory. Here we investigated wild-type (WT) and cannabinoid CB1 receptor-knockout (CB1-KO) mice in the phencyclidine-induced social withdrawal model of schizophrenia. N-methyl-D-aspartate (NMDA) antagonists (including phencyclidine) induce psychotic symptoms in humans, and are used to model schizophrenia in a variety of experimental conditions. In WTs, 5 mg/kg phencyclidine increased locomotion and stereotyped behaviours, and decreased social interactions. These changes are consistent with a schizophrenia-like effect. In CB1-KOs, phencyclidine decreased locomotion, enhanced ataxia and stereotypy more markedly than in WTs, but did not affect social interactions. Locomotion showed a significant negative correlation with both ataxia and stereotypy, suggesting that in CB1-KOs, the locomotor suppressive effect of phencyclidine was secondary to changes in these variables. Our findings demonstrate that CB1 gene disruption dramatically alters the behavioural effects of the NMDA antagonist phencyclidine, suggesting that the CB1 receptor is involved in schizophrenia. As social disruption and stereotypy respectively are believed to model negative and positive symptoms of schizophrenia, our findings tentatively suggest that cannabinoids are differentially involved in these two symptom categories. These findings require verification by experiments involving CB1 receptor blockers, as the genetic and pharmacological blockade of receptors may not always provide similar results.

A urinary metabolite of delta 1-tetrahydrocannabinol. The first synthesis of 4",5"-bisnor-delta 1-tetrahydrocannabinol-7,3"-dioic acid, and a deuterium labelled analogue.

The first synthesis of unlabelled and [2H5]-labelled 4",5"-bisnor-delta 1-THC-7,3"-dioic acid, the major dicarboxylated urinary metabolite of delta 1-THC in man, is presented (preliminary results of this work have been presented in part at the Melbourne Symposium on Cannabis, Australia, September 1987, Ref. 1). The synthesis of methyl 3-(3,5-dihydroxyphenyl)-[3,3-2H2]-propanoate (8) is described in a nine step sequence from 3,5-dimethoxybenzoic acid in an overall yield of 24%. Compound 8 is condensed with a terpene synthon 9 under acidic conditions, acetylated and hydrolyzed with red HgO and HgCl2 to afford the 1-formyl-4",5",7-trisnor-delta 1-THC-3"-oic acid derivative (11). Compound 11 is oxidized using NaClO2 in 2-methyl-2-butene and hydrolyzed to give (+/-)-4",5"-bisnor-delta 1-THC-7,3"-dioic acid (12). The same approach has been used to prepare both the labelled and unlabelled metabolite.

[Studies on the toxicity of thiaminedisulfide monoorotate. Short communication (author's transl)]. / Untersuchungen zur Toxizität des Thiamindisulfid-monoorotat. Kurze Mitteilung.

The water soluble thiaminedisulfide monoorotate (thiooratin) was studied in mice and rats for its acute and subchronic toxicity. After continuous administration over 8 weeks no organic damages, in particular no fatty livers, were found.

Volume regulatory mechanisms of human platelets.

Platelets were found to defend themselves against hypoosmotic swelling by a regulatory volume decrease mechanism, similar to that of T-lymphocytes. An oligomycin C sensitive Cl- -channel and a Ca2+-dependent, quinine- and trifluoperazine-sensitive K+-channel play a significant role in the process: platelets lose K+ and Cl- (and consequently water) through these. Activation of platelets accelerates the volume regulatory mechanism in spite of the fact that the Na+/H+ exchange process, activated simultaneously, works against volume decrease. The most rapid volume regulation was observed in activated platelets with inhibited Na+/H+ exchange process.