Phytosterol Profile in Iraqi Lactuca serriola after Purification and Isolation by Combiflash and HPLC (Conference Paper )#

Authors

  • Murtadha Saleh Hussien dewanyia health directorate
  • Ayad A. Al-Hamashi

DOI:

https://doi.org/10.31351/vol31issSuppl.pp54-61

Abstract

One of these plants utilized in traditional medicine is Lactuca seriolla Linn., which belongs to the Asteraceae family. It goes by a variety of common names in the world, including prickly lettuce, wild lettuce, jagged lettuce, and Kahu and khas. The work aimed to isolate and characterize some bioactive constituent(s) from the aerial part of Lactuca serriola utilizing  Combiflash NEXTGEN and high-performance liquid chromatography (HPLC). Lactuca serriola (aerial part) was extracted with 80% ethanol, then fractionated with hexane. Then 250 mg of hexane extract was mixed with 4 g of silica gel and loaded in cartilage, then bounded to the gold column of combi flash using a solvent system comprised of ethyl acetate: n-hexane (10% ethyl acetate 90% hexane v/v) to elute the column. The fractions resulting were analyzed by thin layer chromatography and high-performance liquid chromatography (HPLC). white needle-like crystalline substances were isolated via combi flash column chromatography. The isolated product was analyzed by thin layer chromatography and high-performance liquid chromatography (HPLC). β-sitosterol (11 mg) and stigmasterol (7 mg) were obtained from 250 mg of hexane fraction.

 

How to Cite

1.
Murtadha Saleh Hussien, Ayad A. Al-Hamashi. Phytosterol Profile in Iraqi Lactuca serriola after Purification and Isolation by Combiflash and HPLC (Conference Paper )#. Iraqi Journal of Pharmaceutical Sciences [Internet]. 2023 Feb. 16 [cited 2024 Dec. 24];31(Suppl.):54-61. Available from: https://bijps.uobaghdad.edu.iq/index.php/bijps/article/view/1999

Publication Dates

References

1. Tripathi, Leena, and Jaindra Nath Tripathi. Role of biotechnology in medicinal plants. Tropical Journal of Pharmaceutical Research. 2003;2 (2): 243-253.‏
2. Salau, A. O., and O. M. Odeleye. Antimicrobial activity of Mucuna pruriens on selected bacteria. African Journal of Biotechnology. 2007;6 (18).‏
3. Gutmann, L., et al. Mutation of Salmonella paratyphi A conferring cross-resistance to several groups of antibiotics by decreased permeability and loss of invasiveness. Antimicrobial Agents and Chemotherapy .1988;32 (2): 195-201.
4. Al-Mussawi A A. Screening for Antibacterial activity of twenty-two Iraqi wild plants. Basrah Journal of Science. 2014;32(2): 101-111.
5. Chakravarty H.L.: Plant wealth of Iraq (1st ed.). Baghdad Botany Directorate, Ministry of Agriculture and Agrarian, Republic of Iraq, 1976; pp. 11, pp.27.
6. Edeoga HO, Okwu DE, Mbaebie BO. Phytochemical constituents of some Nigerian medicinal plants. African Journal of Biotechnology 1984, 4(7): 685-688.
7. Cowan MM. Plant products as antimicrobial agents. Clinical Microbiology Review. 1999;12(4): 564-582.
8. Girish, H. V., and S. Satish. Antibacterial activity of important medicinal plants on human pathogenic bacteria-a comparative analysis. World Applied Sciences Journal. 2008;5 (3): 267-271.‏
9. Al-Rawi A. and Chakravarty H.L. Medicinal plants of Iraq (2nd Ed). ministry of Agriculture and Irrigation, Republic of IraqBaghdad. 1988; Pp57.
10. Shukurlu, Emil N., and Fatih Goger. Investigation of chemical components extracted from the aerial parts of Lactuca serriola L. by liquid chromatography–mass spectrometric method. Plant & Fungal Research .2021; 4(2): 50-55 .
11. Rolnik, Agata, and Beata Olas. The plants of the Asteraceae family as agents in the protection of human health. International Journal of Molecular Sciences .2021;22 (6): 3009.‏
12. S. R. Baquar, Medicinal and Poisonous Plants of Pakistan, Printas, Karachi, Pakistan, 1989.
13. Ling, W. H., and P. J. H. Jones. Dietary phytosterols: a review of metabolism, benefits and side effects. Life Sciences . 1995;57 (3): 195-206.‏
14. Berger, Alvin, Peter JH Jones, and Suhad S. Abumweis. Plant sterols: factors affecting their efficacy and safety as functional food ingredients. Lipids in Health and Disease. 2004;3 (1): 1-19.
15. Luz Fernandez, Maria, and Sonia Vega‐López. Efficacy and safety of sitosterol in the management of blood cholesterol levels. Cardiovascular Drug Reviews . 2005;23 (1): 57-70.‏
16. DE JONG, Ariënne; PLAT, Jogchum; MENSINK, Ronald P. Metabolic effects of plant sterols and stanols The Journal of Nutritional Biochemistry. 2003;14(7): 362-369
17. Agren, J.J.; Tvrzicka, E.; Nenonen, M.T.; Helve, T.; Hänninen, O. Divergent changes in serum sterols during a strict uncooked vegan diet in patients with rheumatoid arthritis. Br. J. Nutr. 2001; 85: 137–139.
18. Li, Q.; Xing, B. A Phytosterol-Enriched Spread Improves Lipid Profile and Insulin Resistance of Women with Gestational Diabetes Mellitus: A Randomized, Placebo-Controlle.ed Double-Blind Clinical Trial. Diabetes Technol. Ther. 2016; 18: 499–504.
19. Guo, X.-X.; Zeng, Z.; Qian, Y.-Z.; Qiu, J.; Wang, K.; Wang, Y.; Ji, B.-P.; Zhou, F. Wheat flour, enriched with γ-oryzanol, phytosterol, and ferulic acid, alleviates lipid and glucose metabolism in high-fat-fructose-fed rats. Nutrients .2019; 11: 1697.
20. Zhang, Z.-L.; Luo, Z.-L.; Shi, H.-W.; Zhang, L.-X.; Ma, X.-J. Research advance of functional plant pharmaceutical cycloartenol about pharmacological and physiological activity. Zhongguo Zhong Yao Za Zhi. 2017; 42: 433–437.
21. Khadim EJ, Abdulrasool AA, Awad ZJ. Phytochemical investigation of alkaloids in the Iraqi Echinops heterophyllus (Compositae). Iraqi J Pharm Sci. 2014;23:26–34.
22. Lama-Muñoz A, del Mar Contreras M, Espínola F, Moya M, Romero I, Castro E. Content of phenolic compounds and mannitol in olive leaves extracts from six Spanish cultivars: Extraction with the Soxhlet method and pressurized liquids. Food Chem. 2020;320:126626.
23. Wu, Jing, et al. Isolation of bioactive steroids from the Stropharia rugosoannulata mushroom and absolute configuration of strophasterol B. Bioscience , Biotechnology and Biochemistry . 2013;77 (8): 1779-1781.‏
24. Lee, Dong Gu, et al. High-performance liquid chromatography analysis of phytosterols in Panax ginseng root grown under different conditions. Journal of Ginseng Research. 2018; 42 (1): 16-20.‏
25. Mamta, Saxena, and Saxena Jyoti. Phytochemical screening of Acorus calamus and Lantana camara. International Research Journal of Pharmacy .2012;3(5): 324-3.
26. ‏Pierre, Luhata Lokadi, and Munkombwe Namboole Moses. Isolation and characterisation of stigmasterol and β-sitosterol from Odontonema strictum (acanthaceae). Journal of Innovations in Pharmaceuticals and Biological Sciences .2015;2 (1): 88-95.‏

Downloads

Published

2023-02-16