Journal
ANALYTICAL AND BIOANALYTICAL CHEMISTRY
Volume 386, Issue 5, Pages 1345-1355Publisher
SPRINGER HEIDELBERG
DOI: 10.1007/s00216-006-0717-6
Keywords
JWH-015; metabolites; CB2 agonist; HPLC-tandem mass spectrometry
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The in vitro microsomal metabolism of JWH-015, a ligand that exhibits a high binding affinity at the peripheral cannabinoid receptor CB2, has been studied. A total of 22 metabolites were identified and structurally characterized. The metabolites are products of: 1) monohydroxylation on the naphthalene ring (m/z 344, M20 and M21), indole ring (m/z 344, M17 and M18), or the N-alkyl group (m/z 344, M14); 2) arene oxidation leading to dihydrodiols (m/z 362, M12 and M15); 3) dihydroxylation on the naphthalene ring (m/z 360, M7) or indole ring (m/z 360, M13), resulting from a combination of monohydroxylations on both the naphthalene and indole rings (m/z 360, M16), or a combination of monohydroxylations on the naphthalene ring and on the N-propyl group (m/z 360, M9); 4) trihydroxylation (m/z 378, M1, M3, M4, M6, and M10); 5) N-dealkylation (m/z 286, M19); 6) N-dealkylation and monohydroxylation on the naphthalene ring (m/z 302, M11); 7) N-dealkylation and dihydrodiol formation from arene oxidation (m/z 320, M2 and M5); 8) dehydrogenation after monohydroxylation on the N-alkyl group (m/z 326, M22); 9) dehydrogenation and monohydroxylation on the indole ring (m/z 342, M8).
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