EVALUATION OF IN-VITRO VASORELAXANT EFFECT (POTENTIAL ANTIHYPERTENSIVE) OF KIGELIA AFRICANA FRUIT METHANOL EXTRACT ON POTASSIUM CHLORIDE AND PHENYLEPHRINE INDUCED TENSION IN WISTAR RAT AORTA

  • A. O. Isah
  • M. Idu
  • A. A. Abdulrahman
  • F. Amaechina
DOI: https://doi.org/10.33003/fjs-2020-0403-414
Keywords: Evaluation, In vitro, Vasorelaxant, Effect, Kigelia africana

Abstract

This research on Kigelia africana was conducted in order to ascertain its ability to relax excited vascular smooth muscle in rat aorta. Preliminary investigation on whether the plant exhibits antihypertensive property was done before the evaluation of in vitro vasorelaxant effect. The vasorelaxant activity was determined using in vitro method on rat aorta with the aid of perfusion apparatus with a detachable organ bath. The administration of potassium chloride (KCl) raised the tension from 1.0 to 1.31 indicating that the aorta got to its peak of contraction. At 10 and 20mg/kg, the tension dropped significantly, showing relaxation of the smooth muscle while at 5mg/kg, drop in tension was insignificant at p˂0.05. However, at some of the doses, towards the end of experiment, there was steady resurge in tension showing that the aorta resumed contraction. On the application of phenylephrine (PE), the tension rose to 1.18g. On administration of the extract, the tension dropped slightly showing mild vascular smooth muscle relaxation. From the results obtained, there was seeming similarity in the action of the K. africana compared to amlodipine/Ramipril in KCl and PE induced tension in aorta respectively. However, at 10 and 20mg/kg, a substantial decrease in tension was noted indicating that the extract action is dose dependent. Thus, from this in-vitro smooth muscle relaxation study in rats, the methanol extract of K. africana has depressant property that was likely expressed by enhancing the closing of voltage operated calcium channel and ACE inhibiting activity in KCl and Phenylephrine induced tension respectively.

References

Adoum, O. A. (2008). Determination of toxicity effects of some savannah plants using brine shrimp test (BST). International Journal of Pharmaceutical Application. Sci., 2(3):1-5.

Al-Snafi, A. E. (2013). Chemical constituents and pharmacological activities of Milfoil (Achillea santolina): A Review. International Journal of Pharmaceutical Technology Research, 5(3): 1373-1377.

Al-Snafi, A. E. (2015). The pharmacological and therapeutic importance of Agrimonia eupatoria: A Review. Asian Journal of Pharmaceutical Science and Technology, 5(2): 112-117.

Al-Snafi, A. E. (2015). Chemical constituents and pharmacological importance of Agropyron repens: A Review. Research Journal of Pharmacology and Toxicology, 1(2): 37-41.

Al-Snafi, A. E. (2016). Adonis aestivalis: pharmacological and toxicological activities- A review. Asian Journal of Pharmaceutical Science & Technology, 6(2): 96-102.

Amaechina, F. C. and Omogbai, E. K. I. (2007). Hypotensive effect of aqueous extract of the leaves of Phyllanthus amarus Schum and Thonn (Euphorbiaceae). Acta Polonia Pharmaceutica – Drug Research, 64: 547-552.

Breithaupt-Grögler, K., Ling, M. and Boudoulas, H. (1997). Protective effect of chronic garlic intake on elastic properties of aorta in the elderly. Circulation, 96: 2649–55.

Chang, W. T., Dao, J. and Shao, Z. H. (2005). Hawthorn: potential roles in cardiovascular disease. American Journal of Chinese Medicine, 33:1–10.

Desai, H. K., Gawad, D. H., Govindachari, T. R., Joshi, B. S., Kamat, V. N. and Modi, J. D. (1971). Chemical Investigation of some Indian plants, Indian Journal of Chemistry. 9: 611-613

Fafioye, O. O. (2005). Plants with piscicidal activities in South-western Nigeria. Turkish Journal of Fish Aquatic Science, 5; 91-97.

Gouda, Y. G., Abdel-baky, A. M., Darwish, F. M., Mohammed, K. M., Kasaim, R. and Yamasaki, K. (2003) Iridoids from Kigelia pinnata DC. Fruits. Phytochemistry, 63(8):887-92

Grace, O. M., Light, M. E., Lindsey, K. I., Mulholland, D. A., van, Staden, J. and Jager, A. K. (2002) Antibacterial activity and isolation of active compounds from fruit of the traditional African medicinal tree Kigelia africana, South African Journal Botany, 68 (1); 220-222.

Han, X., Kubota, I., Feron. O., Opel, D. J., Arstall, M. A., Zhao, Y. Y., Huang, P., Fishman, M. C., Michel, T. and Kelly, R. A. (1998). Muscarinic cholinergic regulation of cardiac myocyte ICa-L is absent in mice with targeted disruption of endothelial nitric oxide synthase. Proceedings of National Academy of Science, USA. 95: 6510-6515.

Hanf, R., Li, Y., Szabo, G. and Fischmeister, R. (1993). Agonist-independent effects of muscarinic antagonists on Ca2+ and K+ currents in frog and rat cardiac cells. Journal of. Physiology, 461: 743-765.

Hartley, L., Flowers, N. and Holmes, J. (2013). Green and black tea for the primary prevention of cardiovascular disease. Cochrane Database Systematic Review. 6:CD009934.

Hussain, H., Krohn, K., Ahmad, U. V., Miana, G. A. and Green, I. R. (2007) Lapachol: An overview, Arkivoc., 2:145-171.

Houghton, P. J., Photiou, A., Uddin, S., Shah, P., Browning. M., Jackson, S. J. and Retsas, S. (1994) Activity of extracts of Kigelia pinnata against melanoma and renal carcinoma cell lines. Planta Medica, 60(5): 430-433.

Houghton, P. J. (2007) The sausage tree (Kigelia pinnata), Ethnobotany and recent scientific work. African Botanicals. 1-10.

Jurevièius, J. and Fischmeister, R. (1996). Acetylcholine inhibits Ca2+ current by acting exclusively at a site proximal to adenylyl cyclase in frog cardiac myocytes. Journal of. Physiology. 491: 669-675.

Kolodziej, H. (1997) Protective role of Kigelia africana fruits against benzo(a)pyreneinduced fore-stomach tumourigenesis in mice and against albumen-induced inflammation in rats. Pharm. Pharmacol Lett., 7(2/3): 67-70.

Owolabi, O. J. and Omogbai, E. K. I. (2007). Analgesic and anti-inflammatory activities of the ethanolic stem bark extract of Kigelia africana (Bignoniaceae). African Journal of Biotechnology, 6(5): 582-85.

Olaleye, M. T and Rocha, J. B. (2007). Commonly used medicinal plants exhibit distinct in-vitro antioxidant activities against hepatotoxins in rat liver. Experimental Toxicology and Pathology, 58(6): 433-8.

Rahman, K. and Lowe, G. M. (2006). Garlic and cardiovascular disease: a critical review. Journal of Nutrition., 136: 736S–40S.

Taddel, A. and Rosas R. A. J. (2000): Bioactivity studies of extracts from Tridax procumbens. Phytomedicine, 7: 3235-8.

Saini, S., Kaur, H., Verma, B. and Ripudaman, S. S. (2009) Kigelia africana (Lam.) Benth. An overview. Natural Product Radiance, 8(2): 190-97.

Udopa, S. L., Udopa, A. L. and Lalkarni, D. R. (1991): Influence of Tridax procumbens on lysl oxidase activity and wound healing. Planta Medica 57: 4, 325-7.

Zhang, C., Qin, Y. Y. and Wei, X. (2015). Tea consumption and risk of cardiovascular outcomes and total mortality: a systematic review and meta-analysis of prospective observational studies. European Journal of Epidemiology, 30: 103–13.

Published
2020-09-29
How to Cite
IsahA. O., IduM., AbdulrahmanA. A., & AmaechinaF. (2020). EVALUATION OF IN-VITRO VASORELAXANT EFFECT (POTENTIAL ANTIHYPERTENSIVE) OF KIGELIA AFRICANA FRUIT METHANOL EXTRACT ON POTASSIUM CHLORIDE AND PHENYLEPHRINE INDUCED TENSION IN WISTAR RAT AORTA. FUDMA JOURNAL OF SCIENCES, 4(3), 470 - 475. https://doi.org/10.33003/fjs-2020-0403-414
Issue
Vol. 4 No. 3 (2020): FUDMA Journal of Sciences - Vol. 4 No. 3
Section
Research Articles

Copyright (c) 2020 FUDMA JOURNAL OF SCIENCES

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

FUDMA Journal of Sciences