Download PDF
Planta Med 2006; 72(6): 556-563
DOI: 10.1055/s-2006-931567
Original Paper
Analytical Methods
© Georg Thieme Verlag KG Stuttgart · New York

Multivariate Analysis of Integrated and Full-Resolution 1H-NMR Spectral Data from Complex Pharmaceutical Preparations: St. John’s Wort

Bonnie Rasmussen1 , Olivier Cloarec2 , Huiru Tang2 , 3 , Dan Stærk1 , Jerzy W. Jaroszewski1
  • 1Department of Medicinal Chemistry, The Danish University of Pharmaceutical Sciences, Copenhagen, Denmark
  • 2Section of Biological Chemistry, Division of Biomedical Sciences, Faculty of Medicine, Imperial College London, London, U.K.
  • 3State Key Laboratory of Magnetic Resonance and Molecular and Atomic Physics, Wuhan Institute of Physics and Mathematics, The Chinese Academy of Sciences, Wuhan, P. R. China
Further Information

Publication History

Received: November 26, 2005

Accepted: January 31, 2006

Publication Date:
24 April 2006 (online)

Also available at
    Permissions and Reprints

Abstract

Commercial herbal preparations are typically very complex mixtures and the relationship between content of various constituents and pharmacological action of the formulation is usually unclear. Such formulations are nevertheless standardized using a single marker constituent or a group of closely related constituents, which provides no information about other abundant constituents present in the extract. In this study, principal component analysis of 600 MHz 1H-NMR spectra of extracts of commercial formulations of St. John’s wort (Hypericum perforatum), acquired in methanol-d 4 and DMSO-d 6, was shown to be able to discriminate between various preparations according to their global composition, including differentiation between various batches from the same supplier, while no clustering into classes of tablets and capsules was observed. This suggests that the plant extract variability rather than the manufacturing process accounts for the data clustering. Major variations in the content of flavonoids, recently linked to the antidepressant activity of St. John’s wort extracts, were detected. Use of two NMR solvents provided complementary data sets, allowing assessment of various aspects of sample composition from separate PCA models. Both integrated (about 200 variables) and full-resolution NMR data (about 30 000 variables) have been used. The latter approach, applied for the first time in analysis of a herbal preparation, provided via loading plots more precise information about constituents responsible for data clustering, and may be generally preferable for PCA analysis of NMR data of plant extracts and herbal medicines.

Key words

St. John’s wort - NMR spectroscopy - pattern recognition - principal component analysis - data reduction - quality control

References

  • 1 European Pharmacopoeia. 5th edn Strasbourg; Council of Europe 2005: p 2485-6
    Search in Google Scholar
  • 2 Bauer R. Quality criteria and standardization of phytopharmaceuticals: can acceptable drug standards be achieved?.  Drug Inf J. 1998;  32 101-10
    PubMedSearch in Google Scholar
  • 3 Barnes J, Anderson L A, Phillipson J D. St John’s wort (Hypericum perforatum L.): a review of its chemistry, pharmacology and clinical properties.  J Pharm Pharmacol. 2001;  53 583-600
    CrossrefPubMedSearch in Google Scholar
  • 4 Butterweck V. Mechanism of action of St John’s wort in depression - what is known?.  CNS Drugs. 2003;  17 539-62
    PubMedSearch in Google Scholar
  • 5 Szegedi A, Kohnen R, Dienel A, Kieser M. Acute treatment of moderate to severe depression with Hypericum extract WS 5570 (St John’s wort): randomised controlled double blind non-inferiority trial versus paroxetine.  Br Med J. 2005;  330 503-6
    CrossrefPubMedSearch in Google Scholar
  • 6 Lindon J C, Holmes E, Nicholson J K. Metabonomics: systems biology in pharmaceutical research and development.  Curr Opin Mol Ther. 2004;  6 265-72
    PubMedSearch in Google Scholar
  • 7 Lindon J C, Holmes E, Bollard M E, Stanley E G, Nicholson J K. Metabonomics technologies and their applications in physiological monitoring, drug safety assessment and disease diagnosis.  Biomarkers. 2004;  9 1-31
    CrossrefPubMedSearch in Google Scholar
  • 8 Lindon J C, Holmes E, Nicholson J K. Pattern recognition methods and applications in biomedical magnetic resonance.  Prog Nucl Magn Reson Spectrom. 2001;  39 1-40
    PubMedSearch in Google Scholar
  • 9 Choi H K, Choi Y H, Verberne M, Lefeber A WM, Erkelens C, Verpoorte R. Metabolic fingerprinting of wild type and transgenic tobacco plants by 1H NMR and multivariate analysis technique.  Phytochemistry. 2004;  65 857-64
    CrossrefPubMedSearch in Google Scholar
  • 10 Choi Y H, Kim H K, Hazekamp A, Erkelens C, Lefeber A WM, Verpoorte R. Metabolomic differentiation of Cannabis sativa cultivars using 1H NMR spectroscopy and principal component analysis.  J Nat Prod. 2004;  67 953-7
    CrossrefPubMedSearch in Google Scholar
  • 11 Frederich M, Choi Y H, Angenot L, Harnischfeger G, Lefeber A WM, Verpoorte R. Metabolomic analysis of Strychnos nux-vomica, Strychnos icaja and Strychnos ignatii extracts by 1H nuclear magnetic resonance spectrometry and multivariate analysis techniques.  Phytochemistry. 2004;  65 1993-2001
    PubMedSearch in Google Scholar
  • 12 Wang Y L, Tang H R, Nicholson J K, Hylands P J, Sampson J, Whitcombe I. et al . Metabolomic strategy for the classification and quality control of phytomedicine: a case study of chamomile flower (Matricaria recutita L.)  Planta Med. 2004;  70 250-5
    Thieme ConnectPubMedSearch in Google Scholar
  • 13 Roos G, Roseler C, Buter K B, Simmen U. Classification and correlation of St. John’s wort extracts by nuclear magnetic resonance spectroscopy, multivariate data analysis and pharmacological activity.  Planta Med. 2004;  70 771-7
    Thieme ConnectPubMedSearch in Google Scholar
  • 14 Kim H K, Choi Y H, Erkelens C, Lefeber A WM, Verpoorte R. Metabolic fingerprinting of Ephedra species using 1H-NMR spectroscopy and principal component analysis.  Chem Pharm Bull. 2005;  53 105-9
    CrossrefPubMedSearch in Google Scholar
  • 15 Bailey N J, Sampson J, Hylands P J, Nicholson J K, Holmes E. Multi-component metabolic classification of commercial feverfew preparations via high-field 1H-NMR spectroscopy and chemometrics.  Planta Med. 2002;  68 734-8
    Thieme ConnectPubMedSearch in Google Scholar
  • 16 Bilia A R, Bergonzi M C, Mazzi G, Vincieri F F. Analysis of plant complex matrices by use of nuclear magnetic resonance spectroscopy: St. John’s wort extract.  J Agric Food Chem. 2001;  49 2115-24
    CrossrefPubMedSearch in Google Scholar
  • 17 Krishnan P, Kruger N J, Ratcliffe R G. Metabolite fingerprinting and profiling in plants using NMR.  J Exp Bot. 2005;  56 255-65
    PubMedSearch in Google Scholar
  • 18 Xu L, Wei C E, Zhao M B, Wang J N, Tu P F, Liu J X. Experimental study of the total flavonoids in Hypericum perforatum on depression.  Zhongguo Zhong Yao Za Zhi. 2005;  30 1184-8
    PubMedSearch in Google Scholar
  • 19 Butterweck V, Hegger M, Winterhoff H. Flavonoids of St. John’s wort reduce HPA axis function in the rat.  Planta Med. 2004;  70 1008-11
    Thieme ConnectPubMedSearch in Google Scholar
  • 20 Noldner M, Schotz K. Rutin is essential for the antidepressant activity of Hypericum perforatum extracts in the forced swimming test.  Planta Med. 2002;  68 577-80
    Thieme ConnectPubMedSearch in Google Scholar
  • 21 Butterweck V, Jurgenliemk G, Nahrstedt A, Winterhoff H. Flavonoids from Hypericum perforatum show antidepressant activity in the forced swimming test.  Planta Med. 2000;  66 3-6
    Thieme ConnectPubMedSearch in Google Scholar

Prof. Jerzy W. Jaroszewski

Department of Medicinal Chemistry

The Danish University of Pharmaceutical Sciences

Universitetsparken 2

2100 Copenhagen

Denmark.

Fax: +45-3530-6040

Email: jj@dfuni.dk