The existence of a cytochrome P450-dependent 2,3-epoxide of the potent pneumotoxin 3-methylindole was indirectly confirmed using stable isotope techniques and mass spectrometry. Determination of hydride shift and incorporation of labeled oxygen in 3-methyloxindole and 3-hydroxy-3-methyloxindole, metabolites that may be in part dependent on the presence of the epoxide, were utilized as indicators of the epoxide's existence. One mechanism for the formation of 3-methyloxindole involves cytochrome P450-mediated epoxidation followed by ring opening requiring a hydride shift from C-2 to C-3. Through incubations of goat lung microsomes with [2-2H]-3-methylindole, the retention of 2H in 3-methyloxindole was found to be 81%, indicating a majority of the oxindole was produced by the mechanism described above. 3-Hydroxy-3-methylindolenine is an imine reactive intermediate that could be produced by ring opening of the 2,3-epoxide. The imine may be oxidized to 3-hydroxy-3-methyloxindole by the cytosolic enzyme aldehyde oxidase. Activities of this putative detoxification enzyme were determined in both hepatic and pulmonary tissues from goats, rats, mice, and rabbits, but the activities could not be correlated to the relative susceptibilities of the four species to 3-methylindole toxicity. The 18O incorporation into either 3-methyloxindole or 3-hydroxy-3-methyloxindole from both 18O2 and H218O was determined. The 18O incorporation into 3-methyloxindole from 18O2 was 91%, strongly implicating a mechanism requiring cytochrome P450-mediated oxygenation. Incorporation of 18O into 3-hydroxy-3-methyloxindole indicated that the alcohol oxygen originated from molecular oxygen, also implicating an epoxide precursor. These studies demonstrate the existence of two new reactive intermediates of 3-methylindole and describe the mechanisms of their formation and fate.
Cytochrome P450 enzymes can potentially oxygenate 3-methylindole to form 2,3-epoxy-3-methylindoline which could rearrange to the stable metabolite 3-methyloxindole or open to form 3-hydroxy-3-methylindolenine, a putative electrophilic imine. The purpose of the current work was to determine if the imine was formed, and to characterize it via its adducts with thiol nucleophiles. Thiols were added to incubations of goat lung microsomes with 3-methylindole and deuterated analogues of 3-methylindole to trap the imine intermediate as its thioether conjugates. The N-acetylcysteine conjugate of 3-hydroxy-3-methylindolenine was detectable by LC/MS, but a molecular ion was not observed because the adduct rapidly dehydrated to form the 2-substituted indole. However, the imine was S-alkylated, and the intermediate carbinol was intramolecularly trapped using thioglycolic acid as a trapping agent that induced cyclocondensation to a lactone. The retention of one atom of deuterium from [2-2H]-3-methylindole and three from 3-[2H3-methyl]indole substantiated the mechanism in which the lactone adduct was produced by sulfur addition to either 3-hydroxy-3-methylindolenine or the epoxide. Tandem mass spectrometry of the lactone adduct produced a daughter ion spectrum consistent with this adduct. These studies demonstrated the existence of a new reactive intermediate of 3-methylindole, 3-hydroxy-3-methylindolenine, which may play a role in the pneumotoxicity of this chemical.
Risperidone, a benzisoxazole derivative, is an antipsychotic agent used for the treatment of schizophrenia. We developed a liquid chromatographic-atmospheric pressure chemical ionization-tandem mass spectrometric (LC-APCI-MS-MS) method with improved sensitivity, selectivity, and dynamic range for determination of risperidone and 9-hydroxyrisperidone in human plasma. A structural analogue of risperidone, RO68808 (5 ng/mL), is added as the internal standard to 1 mL of human plasma. Plasma is made basic, extracted with pentane/methylene chloride (3:1), the organic phase evaporated to dryness, and the residue is reconstituted in water with 0.1% formic acid/acetonitrile (20:1). For LC-MS-MS analysis, a Metachem Inertsel HPLC column (2.1 x 150 mm, 5-microm particle size) is connected to a Finnigan TSQ7000 tandem MS via the Finnigan API interface. Both electrospray (ESI) and APCI produced predominantly MH(+) ions for the two analytes and the internal standard. Ions detected by selected reaction monitoring correspond to the following transitions: m/z 411 to 191 for risperidone, m/z 427 to 207 for 9-hydroxyrisperidone, and m/z 421 to 201 for the internal standard. APCI provided a larger dynamic range (0.1 to 25 ng/mL) and better precision and accuracy than ESI. Intrarun accuracy and precision determined at 0.1, 0.25, 2.5, and 15 ng/mL were within 12% of target with %CVs not exceeding 10.9%. Interrun accuracy and precision determined at the same concentrations were within 9.6% of target with %CVs not exceeding 6.7%. Analytes were stable in plasma after 24 h at room temperature, 2 freeze-thaw cycles, and 490 days at -20 degrees C.
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