Determination of biologically active substances in extracts of (Angelica Archangelica L.) by NMR spectroscopy

In modern pharmacopoeial analysis, there is an increasing demand for high-precision qualitative and quantitative data on plant raw materials used in pharmaceutical production, mainly due to strict quality control and safety standards. In addition, raw materials of the same species can vary significantly in the composition of secondary metabolites. Currently, in the field of phytochemical analysis, conventional high-performance liquid chromatography with various detection options or spectrophotometry in the visible and ultraviolet range are commonly used for qualitative and quantitative determination of substances. However, most of these methods have significant disadvantages such as long sample preparation time and the need for authentic standard samples [1, 2]. Nuclear magnetic resonance (NMR) spectroscopy is devoid of these limitations and therefore appears to be a perspective method for the identification and quantification of bioactive substances of plant origin. In this work, a targeted metabolomic analysis of Angelica archangelica L. by NMR spectroscopy was made, as a result of which 23 metabolites were detected and quantified in the water extract, and preliminary studies were carried out to develop a methodology for the identification and quantification of ostol in DMSO-d6 extract of Angelica archangelica L. roots by 1H NMR spectroscopy.

1. Абрамчук А.В., Карпухин М.Ю. Морфо-биологические особенности дягиля лекарственного (Angelica archangelica L.) // Вестник биотехнологии. – 2020. – № 1. – С. 5-10.

2. Кароматов И.Д., Мавлонов С.С. Лекарственное растение дудник // Биология и интегративная медицина. – 2017. – № 1. – С. 283-290.

3. Bharti S.K., Roy R. Quantitative H-1 NMR spectroscopy // TrAC Trends Anal. Chem. – 2012. – Vol. 35. – P. 5-26.

4. Cisowski W., Głowniak K., Matysik G., Soczewiński E. Analiza frakcji kumary nowych z Angelica archangelica L. i Archangelica litoralis Fries. Zapomocą wysokosprawnej chromatografii cienkowarstwowej (HPTLC) // Herba Pol. — 1987. – Vol. 33, № 4. – P. 233-243.

5. Eeva M., Rauha J. P., Vuorela P., Vuorela H. Computer-assisted, high-performance liquid chromatography with mass spectrometric detection for the analysis of coumarins in Peucedanumpalustre and Angelica archangelica // Phytochemical Analysis: An International Journal of Plant Chemical and Biochemical Techniques. – 2004. – Vol. 15, № 3. – P. 167-174.

6. Forycka A., Buchwald W. Variability of composition of essential oil and coumarin compounds of Angelica archangelica L. // HerbaPolonica. – 2019. – Vol. 65, № 4.

7. Gawdzik J., Kawka S., Mardarowicz M., Suprynowicz Z., Wolski T. Carbon Dioxide Fractionated Supercritical Fluid Extraction of Furanocoumarins from the Fruits of Archangelica officinalis Hoffm // Herba Pol. – 1996. – Vol. 42, № 1. – P. 26-35.

8. Härmälä P., Vuorela H., Hiltunen R., Nyiredy S., Sticher O., Törnquist K. et al. Strategy for the isolation and identification of coumarins with calcium antagonistic properties from the roots of Angelica archangelica // Phytochem Anal. – 1992. – Vol. 3, № 1. – P. 42-48.

9. Herde A. Untersuchung der Cumarinmuster in FrüchtenausgewählterApiaceae: PhD thesis. – University of Hamburg, Germany, 2005.

10. Muller M., Byres M., Jaspars M., Kumarasamy Y., Middleton M., Nahar L. et al. 2D NMR spectroscopic analyses of archangelicin from the seeds of Angelica archangelica // Acta Pharm. – 2004. – Vol. 54, № 4. – P. 277-285.

11. Nemeth S., Pașca B., Teodorescu A., Coita I., Teaha D. Coumarins isolated from the dry roots of Angelica archangelica L. and their antibacterial activity // Analele Universității din Oradea, Fascicula: Ecotoxicologie, Zootehnieși Tehnologii de Industrie Alimentară. — 2015. – Vol. 14. – P. 355-362.

12. Rizzo V., Pinciroli V. Quantitative NMR in synthetic and combinatorial chemistry // J. Pharm. Biomed. Anal. – 2005. – Vol. 38. – P. 851-857.

13. Sieniawska E., Baj T., Ulz Z., Głowniak K. Analysis of coumarin fraction from Angelica archangelica L. fruits using multiple development HPTLC method // Farm PrzeglNauk. – 2011. – № 1. – P. 11-15.

14. Sigurdsson S., Jonsdottir S., Gudbjarnason S. Geographical variation of the furanocoumarin composition of the fruits of Icelandic Angelica archangelica // Z Naturforsch. – 2012. – Vol. 67. – P. 1-7.

15. Waksmundzka-Hajnos M., Petruczynik A., Dragan A., Wianowska D., Dawidowicz A.L. Effect of extraction method on the yield of furanocoumarins from fruits of Archangelica officinalis Hoffm // Phytochem Anal. – 2004. – Vol. 15. – P. 313-319.

16. Wszelaki N., Paradowska K., Jamróz M.K., Granica S., Kiss A.K. Bioactivityguided fractionation for the butyrylcholinesterase inhibitory activity of furanocoumarins from Angelica archangelica L. roots and fruits // J Agric Food Chem. – 2011. – Vol. 59, № 17. – P. 9186-9193.