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Chemical Constituents of Rumex abyssinicus Roots and Evaluation of Its Antimicrobial Activities

Year 2021, Volume: 8 Issue: 1, 21 - 46, 28.02.2021
https://doi.org/10.18596/jotcsa.797560

Abstract

Medicinal plants are usually screened for phytochemicals that may lead to its further isolation, purification and characterization of active principles. The roots of Rumex abyssinicus is used traditionally in Ethiopia for treating different diseases such as hepatitis, hemorrhoids, gonorrhea, typhus and wound. Thus, this study was conducted to investigate the phytochemicals and in-vitro antimicrobial activity extracts of the roots of R. abyssinicus. The roots were collected, chopped and air dried under shade in the Laboratory. Then, the dried plant material was subjected to sequentional extraction using maceration technique by soaking 1 kg of the sample in petroleum ether, chloroform, acetone and methanol and concentrated under reduced pressure using rotary evaporator. The crude extracts were dried and exposed to antimicrobial activity test using four bacterial and two fungal strains. Based on its antimicrobial activity, the acetone crude extract was used for column chromatographic isolation. Herein, two anthraquinones were isolated and characterized: chrysophanol and emodin. Its microbial activity was evaluated for potential antimicrobial activity against medically important strains by the agar disc diffusion method. The concentration of the crude extracts and isolated compounds was 100 mg/mL tested against S. aureus ATCC25903, K. pneumoniae NCTC13368, E. coli ATCC 25722, P. aeruginosa DSMZ 1117 and C. albicans and S.cerevisiae. The zone of growth inhibition of extracts and isolated compounds were compared with standard drugs like Gentamycin and Mancozeb. The results showed that isolated compounds (1 and 2) have demonestrated higher bacterial growth inhibition than the crude extracts. However, compound 2 was not actıve againist the S. cerevisiae strain.

Supporting Institution

Jimma University

Thanks

The authors wish to thank Jimma University, College of Natural Sciences for funding and the department of Biology for hosting us during the bioassay tests and professional supports.

References

  • 1. Moges A. Ethiopian Common Medicinal Plants: Their Parts and Uses in Traditional Medicine - Ecology and Quality Control. In: Sağlam YME-AGE-MRE-NG, editor. Rijeka: IntechOpen; 2020. p. Ch. 7. Available from: https://doi.org/10.5772/intechopen.86202
  • 2. Cavalcante IHL, Martins ABG. Charles Johnson , Tim Raiford & Kristi Whitley. Int J Fruit Sci. 2005;5(4):39–46.
  • 3. Abubakar MG, Yerima MB, Zahriya AG, Ukwuani AN. Acute toxicity and antifungal studies of ethanolic leaves, stem and pulp extract of Tamarindus indica. Res J Pharm Biol Chem Sci. 2010;1(4):104–11.
  • 4. Yirga G. Use of traditional medicinal plants by indigenous people in mekele town, capital city of tigray regional state of Ethiopia. J Med Plants Res. 2010;4(17):1799–804.
  • 5. Tesfahuneygn G, Gebreegziabher G. Medicinal Plants Used in Traditional Medicine by Ethiopians: A Review Article OPEN ACCESS. J Respir Med Lung Dis. 2019;4(1):1–3.
  • 6. Muluye AB, Ayicheh MW. Medicinal plants utilized for hepatic disorders in Ethiopian traditional medical practices: a review. Clin Phytoscience. 2020;6(1).
  • 7. Yineger H, Yewhalaw D, Teketay D. Ethnomedicinal plant knowledge and practice of the Oromo ethnic group in southwestern Ethiopia. J Ethnobiol Ethnomed. 2008;4:1–10.
  • 8. Ekalu A, Gbekele-Oluwa Ayo R, Habila JD, Hamisu I. Bioactivities of phaeophytin a, α-amyrin, and lupeol from Brachystelma togoense Schltr. J Turkish Chem Soc Sect A Chem. 2019;6(3):411–8.
  • 9. Tesfaye S, Belete A, Engidawork E, Gedif T, Asres K. Ethnobotanical Study of Medicinal Plants Used by Traditional Healers to Treat Cancer-Like Symptoms in Eleven Districts, Ethiopia. Evidence-based Complement Altern Med. 2020;2020.
  • 10. Mekonnen T, Urga K, Engidawork E. Evaluation of the diuretic and analgesic activities of the rhizomes of Rumex abyssinicus Jacq in mice. J Ethnopharmacol. 2010;127(2):433–9.
  • 11. Mohammed SA, Madhan B, Demissie BA, Velappan B, Tamil Selvi A. Rumex abyssinicus (mekmeko) Ethiopian plant material for preservation of goat skins: Approach for cleaner leather manufacture. J Clean Prod [Internet]. 2016;133:1043–52. Available from: http://dx.doi.org/10.1016/j.jclepro.2016.06.043
  • 12. Mulisa E, Asres K, Engidawork E. Evaluation of wound healing and anti-inflammatory activity of the rhizomes of Rumex abyssinicus J. (Polygonaceae) in mice. BMC Complement Altern Med [Internet]. 2015;15(1):1–10. Available from: http://dx.doi.org/10.1186/s12906-015-0878-y
  • 13. Rouf ASS, Islam MS, Rahman MT. Evaluation of antidiarrhoeal activity Rumex maritimus root. J Ethnopharmacol. 2003;84(2–3):307–10.
  • 14. Worku N, Mossie A, Stich A, Daugschies A, Trettner S, Hemdan NYA, et al. Evaluation of the In Vitro Efficacy of Artemisia annua , Rumex abyssinicus , and Catha edulis Forsk Extracts in Cancer and Trypanosoma brucei Cells . ISRN Biochem. 2013;2013:1–10.
  • 15. Sharma RS, Mishra V, Singh R, Seth N, Babu CR. Antifungal activity of some Himalayan medicinal plants and cultivated ornamental species. Fitoterapia [Internet]. 2008;79(7–8):589–91. Available from: http://dx.doi.org/10.1016/j.fitote.2008.06.004
  • 16. Getie M, Gebre-Mariam T, Rietz R, Höhne C, Huschka C, Schmidtke M, et al. Evaluation of the anti-microbial and anti-inflammatory activities of the medicinal plants Dodonaea viscosa, Rumex nervosus and Rumex abyssinicus. Fitoterapia. 2003;74(1–2):139–43.
  • 17. Kumar RS, Venkateshwar C, Samuel G, Rao SG. Phytochemical Screening of some compounds from plant leaf extracts of Holoptelea integrifolia ( Planch .) and Celestrus emarginata ( Grah .) used by Gondu tribes at Adilabad District ,. 2013;2(8):65–70.
  • 18. Nithya Devi P, Kaleeswari S, Poonkothai M. Antimicrobial activity and phytochemical analysis of fruit extracts of Terminalia Bellerica. Int J Pharm Pharm Sci. 2014;6(5):639–42.
  • 19. Abdissa D, Geleta G, Bacha K, Abdissa N. Phytochemical investigation of Aloe pulcherrima roots and evaluation for its antibacterial and antiplasmodial activities. PLoS One. 2017;12(3):1–10.
  • 20. Mohammed SA, Panda RC, Madhan B, Demessie BA. Rumex abyssinicus (mekmeko) extract as cleaner approach for dyeing in product manufacture: Optimization and modeling studies. Asia-Pacific J Chem Eng. 2018;13(2):1–19.
  • 21. Prateeksha, Yusuf MA, Singh BN, Sudheer S, Kharwar RN, Siddiqui S, et al. Chrysophanol: A natural anthraquinone with multifaceted biotherapeutic potential. Biomolecules. 2019;9(2):1–24.
  • 22. Van Wyk BE, Yenesew A, Dagne E. Chemotaxonomic survey of anthraquinones and pre-anthraquinones in roots of Aloe species. Biochem Syst Ecol. 1995;23(3):267–75.
  • 23. Dewick PM. Medicinal Natural Products: A Biosynthetic Approach. 3rd Editio. John Wiley & Sons, Ltd. 2009. 1–546 p.
  • 24. Fatima N, Zia M, Riaz-ur-Rehman, Rizvi ZF, Ahmad S, Mirza B, et al. Biological activities of Rumex dentatus L: Evaluation of methanol and hexane extracts. African J Biotechnol. 2009;8(24):6945–51.
  • 25. Tabin S, Gupta RC, Bansal G, Kamili AN. Comparative HPLC analysis of emodin , aloe emodin and rhein in Rheum emodi of wild and in vitro raised plants. 2016;5(2):121–30.
Year 2021, Volume: 8 Issue: 1, 21 - 46, 28.02.2021
https://doi.org/10.18596/jotcsa.797560

Abstract

References

  • 1. Moges A. Ethiopian Common Medicinal Plants: Their Parts and Uses in Traditional Medicine - Ecology and Quality Control. In: Sağlam YME-AGE-MRE-NG, editor. Rijeka: IntechOpen; 2020. p. Ch. 7. Available from: https://doi.org/10.5772/intechopen.86202
  • 2. Cavalcante IHL, Martins ABG. Charles Johnson , Tim Raiford & Kristi Whitley. Int J Fruit Sci. 2005;5(4):39–46.
  • 3. Abubakar MG, Yerima MB, Zahriya AG, Ukwuani AN. Acute toxicity and antifungal studies of ethanolic leaves, stem and pulp extract of Tamarindus indica. Res J Pharm Biol Chem Sci. 2010;1(4):104–11.
  • 4. Yirga G. Use of traditional medicinal plants by indigenous people in mekele town, capital city of tigray regional state of Ethiopia. J Med Plants Res. 2010;4(17):1799–804.
  • 5. Tesfahuneygn G, Gebreegziabher G. Medicinal Plants Used in Traditional Medicine by Ethiopians: A Review Article OPEN ACCESS. J Respir Med Lung Dis. 2019;4(1):1–3.
  • 6. Muluye AB, Ayicheh MW. Medicinal plants utilized for hepatic disorders in Ethiopian traditional medical practices: a review. Clin Phytoscience. 2020;6(1).
  • 7. Yineger H, Yewhalaw D, Teketay D. Ethnomedicinal plant knowledge and practice of the Oromo ethnic group in southwestern Ethiopia. J Ethnobiol Ethnomed. 2008;4:1–10.
  • 8. Ekalu A, Gbekele-Oluwa Ayo R, Habila JD, Hamisu I. Bioactivities of phaeophytin a, α-amyrin, and lupeol from Brachystelma togoense Schltr. J Turkish Chem Soc Sect A Chem. 2019;6(3):411–8.
  • 9. Tesfaye S, Belete A, Engidawork E, Gedif T, Asres K. Ethnobotanical Study of Medicinal Plants Used by Traditional Healers to Treat Cancer-Like Symptoms in Eleven Districts, Ethiopia. Evidence-based Complement Altern Med. 2020;2020.
  • 10. Mekonnen T, Urga K, Engidawork E. Evaluation of the diuretic and analgesic activities of the rhizomes of Rumex abyssinicus Jacq in mice. J Ethnopharmacol. 2010;127(2):433–9.
  • 11. Mohammed SA, Madhan B, Demissie BA, Velappan B, Tamil Selvi A. Rumex abyssinicus (mekmeko) Ethiopian plant material for preservation of goat skins: Approach for cleaner leather manufacture. J Clean Prod [Internet]. 2016;133:1043–52. Available from: http://dx.doi.org/10.1016/j.jclepro.2016.06.043
  • 12. Mulisa E, Asres K, Engidawork E. Evaluation of wound healing and anti-inflammatory activity of the rhizomes of Rumex abyssinicus J. (Polygonaceae) in mice. BMC Complement Altern Med [Internet]. 2015;15(1):1–10. Available from: http://dx.doi.org/10.1186/s12906-015-0878-y
  • 13. Rouf ASS, Islam MS, Rahman MT. Evaluation of antidiarrhoeal activity Rumex maritimus root. J Ethnopharmacol. 2003;84(2–3):307–10.
  • 14. Worku N, Mossie A, Stich A, Daugschies A, Trettner S, Hemdan NYA, et al. Evaluation of the In Vitro Efficacy of Artemisia annua , Rumex abyssinicus , and Catha edulis Forsk Extracts in Cancer and Trypanosoma brucei Cells . ISRN Biochem. 2013;2013:1–10.
  • 15. Sharma RS, Mishra V, Singh R, Seth N, Babu CR. Antifungal activity of some Himalayan medicinal plants and cultivated ornamental species. Fitoterapia [Internet]. 2008;79(7–8):589–91. Available from: http://dx.doi.org/10.1016/j.fitote.2008.06.004
  • 16. Getie M, Gebre-Mariam T, Rietz R, Höhne C, Huschka C, Schmidtke M, et al. Evaluation of the anti-microbial and anti-inflammatory activities of the medicinal plants Dodonaea viscosa, Rumex nervosus and Rumex abyssinicus. Fitoterapia. 2003;74(1–2):139–43.
  • 17. Kumar RS, Venkateshwar C, Samuel G, Rao SG. Phytochemical Screening of some compounds from plant leaf extracts of Holoptelea integrifolia ( Planch .) and Celestrus emarginata ( Grah .) used by Gondu tribes at Adilabad District ,. 2013;2(8):65–70.
  • 18. Nithya Devi P, Kaleeswari S, Poonkothai M. Antimicrobial activity and phytochemical analysis of fruit extracts of Terminalia Bellerica. Int J Pharm Pharm Sci. 2014;6(5):639–42.
  • 19. Abdissa D, Geleta G, Bacha K, Abdissa N. Phytochemical investigation of Aloe pulcherrima roots and evaluation for its antibacterial and antiplasmodial activities. PLoS One. 2017;12(3):1–10.
  • 20. Mohammed SA, Panda RC, Madhan B, Demessie BA. Rumex abyssinicus (mekmeko) extract as cleaner approach for dyeing in product manufacture: Optimization and modeling studies. Asia-Pacific J Chem Eng. 2018;13(2):1–19.
  • 21. Prateeksha, Yusuf MA, Singh BN, Sudheer S, Kharwar RN, Siddiqui S, et al. Chrysophanol: A natural anthraquinone with multifaceted biotherapeutic potential. Biomolecules. 2019;9(2):1–24.
  • 22. Van Wyk BE, Yenesew A, Dagne E. Chemotaxonomic survey of anthraquinones and pre-anthraquinones in roots of Aloe species. Biochem Syst Ecol. 1995;23(3):267–75.
  • 23. Dewick PM. Medicinal Natural Products: A Biosynthetic Approach. 3rd Editio. John Wiley & Sons, Ltd. 2009. 1–546 p.
  • 24. Fatima N, Zia M, Riaz-ur-Rehman, Rizvi ZF, Ahmad S, Mirza B, et al. Biological activities of Rumex dentatus L: Evaluation of methanol and hexane extracts. African J Biotechnol. 2009;8(24):6945–51.
  • 25. Tabin S, Gupta RC, Bansal G, Kamili AN. Comparative HPLC analysis of emodin , aloe emodin and rhein in Rheum emodi of wild and in vitro raised plants. 2016;5(2):121–30.
There are 25 citations in total.

Details

Primary Language English
Subjects Organic Chemistry
Journal Section Articles
Authors

Muaz Shifa This is me 0000-0003-3006-055X

Dele Abdissa This is me 0000-0002-7610-4178

Tsegaye Girma Asere 0000-0003-0126-9098

Publication Date February 28, 2021
Submission Date September 20, 2020
Acceptance Date November 4, 2020
Published in Issue Year 2021 Volume: 8 Issue: 1

Cite

Vancouver Shifa M, Abdissa D, Asere TG. Chemical Constituents of Rumex abyssinicus Roots and Evaluation of Its Antimicrobial Activities. JOTCSA. 2021;8(1):21-46.

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