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DOI: 10.1055/s-2007-967129
Synthesis and Spectroscopic Characterization of Cannabinolic Acid
Publication History
Received: October 20, 2006
Accepted: January 31, 2007
Publication Date:
12 March 2007 (online)
Abstract
Cannabinoids, the main constituents of the cannabis plant, are being increasingly studied for their medicinal properties. Cannabinolic acid (CBNA; 1) was synthesized from tetrahydrocannabinolic acid (THCA; 2), a major constituent of the cannabis plant, by aromatization using selenium dioxide mixed with trimethylsilyl polyphosphate as catalyst in chloroform. Purification was achieved by centrifugal partition chromatography, and the final product had a purity of over 96 % by GC analysis. Spectroscopic data on CBNA such as 1H-NMR and IR, and molar extinction coefficients, as well as chromatographic data are presented as useful references for further research on CBNA. The developed method allows production of CBNA on a preparative scale, making it available for further studies on its biological activities as well as use as a reference standard for analytical procedures.
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References
-
1 Grotenhermen F, Russo E. Review of therapautic effects.
In: Cannabis and cannabinoids. Grotenhermen F, Russo E New York; Haworth Press 2002: 123-32 - 2 Elsohly M A, Slade D. Chemical constituents of marijuana: the complex mixture of natural cannabinoids. Life Sci. 2005; 78 539-48.
- 3 Hazekamp A, Giroud C, Peltenburg A, Verpoorte R. Spectroscopic and chromatographic data of cannabinoids from Cannabis sativa . J Liq Chrom Rel Technol. 2005; 28 2361-82.
- 4 Shoyama Y, Yamauchi T, Nishioka I. Cannabis V., cannabigerolic acid, monomethyl ether and cannabinolic acid. Chem Pharm Bull. 1970; 18 1327-32.
- 5 Hanus L, Tesarik K, Krejci Z. Capillary gas chromatography of natural substances from Cannabis sativa L. I. Cannabinol and cannabinolic acid-artefacts. Acta Univ Palacki Olomuc Fac Med. 1985; 108 29-38.
- 6 Adams R, Baker B R, Wearn R B. Structure of cannabinol. III. Synthesis of cannabinol, 1-Hydroxy-3-n-amyl-6, 6, 9-trimethyl-6-dibenzopyran. J Am Chem Soc. 1940; 62 2204-7.
- 7 Hazekamp A, Simons R, Peltenburg-Looman A, Sengers M, Van Zweden R, Verpoorte R. Preparative isolation of cannabinoids from Cannabis sativa by centrifugal partition chromatography. J Liq Chrom Rel Technol. 2004; 27 2421-39.
- 8 Hazekamp A, Choi Y H, Verpoorte R. Quantitative analysis of cannabinoids from Cannabis sativa using 1H-NMR. Chem Pharm Bull. 2004; 52 718-21.
- 9 Imamoto T, Yokoyama H, Yokoyama M. Trimethylsilyl polyphospahte (PPSE), a useful reagent for the Beckmann rearrangement. Tetrahedron Lett. 1981; 22 1803-4.
- 10 Lee J G, Kim K C. Aromatization of cyclohexenes and cyclohexadienes with selenium dioxide-trimethyl polyphosphate. Tetrahedron Lett. 1992; 33 6363-6.
- 11 Smith R N. High pressure liquid chromatography on cannabis. Identification of separated constituents. J Chromatogr. 1975; 115 101-6.
- 12 Brenneisen R, ElSohly M A. Chromatographic and spectroscopic profiles of cannabis of different origins: part I. J For Sci. 1988; 33 1385-404.
- 13 Choi Y H, Hazekamp A, Peltenburg Looman A M, Frederich M, Erkelens C, Lefeber A W. et al . NMR assignments of the major cannabinoids and cannabiflavonoids isolated from flowers of Cannabis sativa . Phytochem Anal. 2004; 15 345-54.
Arno Hazekamp
Leiden University
Department of Pharmacognosy
Gorlaeus Laboratories
Einsteinweg 55
2333CC, Leiden
The Netherlands
Phone: +31-71-527-4784
Fax: +31-71-527-4511
Email: ahazekamp@rocketmail.com
- www.thieme-connect.de/ejournals/toc/plantamedica