The Antioxidant Capacity of Peristrophe Bivalvis (L.) Merr. as Natural-Based Nephroprotection

https://doi.org/10.22146/mot.53861

Ketut Agus Adrianta(1*), Bagus Komang Satriyasa(2), Desak Made Wihandani(3), I Made Jawi(4)

(1) Faculty Of Pharmacy, Mahasaraswati University
(2) Faculty of Medicine, Udayana University
(3) Faculty of Medicine, Udayana University
(4) Faculty of Medicine, Udayana University
(*) Corresponding Author

Abstract


The kidneys as one of the important body organs have a very important role in maintaining a healthy body. The kidneys function to regulate fluid balance in the body the concentration of salt in the blood, acid-base balance in the blood, and excretion of waste materials such as urea and other nitrogenous waste in the blood. Magenta plants (Peristrophe bivalvis (L.) Merr.) contain secondary metabolites, namely alkaloids, saponins, triterpenoids, tannins, and flavonoids as antioxidants. The abundance of antioxidants sourced from natural sources for various diseases is often used as a complementary therapy and is one of the current therapeutic choices. However, the development of natural sources must also consider kidney function during an intervention. The incidence of kidney failure can be caused either by the occurrence of oxidative stress or exposure to drugs and other chemical compounds must also consider the physiological functions of important organs in the body such as the liver and kidneys. This study was conducted to determine the protective role of magenta leaves extract (Peristrophe bivalvis (L.) Merr.) on the kidneys after being given an acetaminophen hepatotoxic dose. In this study, the effectiveness of magenta leaves antioxidants and the safety of use was analyzed by looking at the kidney function in the experimental model of Wistar strain male white rats, using a Randomized Post Test Only Control Group Design. Four treatment groups showed that magenta leaves extract (Peristrophe bivalvis (L.) Merr.) at 125 and 250 mg/kg BW can protect the kidneys with average creatinine levels of 0.63 and 0.75 and with a normal range (0.7 - 1.2). It means that these two groups could protect the kidney function although in the histopathology test only the group administering extracts of 250 mg/Kg BW showed good results. It can be concluded that administration of the magenta leaves extracts at 250 mg/kg BW can protect renal function as seen from serum creatinine levels. Besides, histopathological features can provide a protective effect on the kidneys with the incidence of necrosis in the kidneys of less than 60% of the toxic dose of acetaminophen.


Keywords


flavonoids; magenta leaves (Peristrophe bivalvis (L.) Merr.); nephroprotectiontable

Full Text:

PDF


References

Attie, A.D. and Scherer, P.E., 2009. Adipocyte metabolism and obesity. J. Lipid Res. 50, S395-S399.

Cuthbertson, D., Andrews, P.K., Reganold, J.P., Davies, N.M. & Lange, B.M., 2012. Utility of metabolomics toward assessing the metabolic basis of quality traits in apple fruit with an emphasis on antioxidants. J. Agric. Food Chem. 60(35), pp.8552-8560.

Dzomba, P. & Musekiwa, C., 2014. Antiobesity and antioxidant activity of dietary flavonoids from dioscorea steriscus tubers. J. Coastal. Life Med. 2(6),465-470.

Francini, A. & Sebastiani, L., 2013. Phenolic compounds in apple (Malus x domestica Borkh.): compounds characterization and stability during postharvest and after processing. Antioxidants. 2(3), 181-193.

Hidayat, M., Soeng, S., Prahastuti, S., Erawijantari, P.P. & Widowati, W., 2015. Inhibitory potential of ethanol extract of Detam 1 soybean (Glycine max) seed and Jati belanda (Guazuma ulmifolia) leaves on adipogenesis and obesity models in 3T3-L1 cell line. J. Sci. Res. Rep. 6(4), 305-312.

Hsu, C.L. & Yen, G.C., 2006. Induction of cell apoptosis in 3T3‐L1 pre‐adipocytes by flavonoids is associated with their antioxidant activity. Mol. Nutr. Food Res. 50(11), 1072-1079.

Hsu, C.L. &Yen, G.C., 2008. Phenolic compounds: evidence for inhibitory effects against obesity and their underlying molecular signaling mechanisms. Mol. Nutr. Food Res. 52(1), 53-61.

Jelodarian, S., Ebrahimabadi, A.H., Khalighi, A. & Batooli, H., 2012. Evaluation of antioxidant activity of Malus domestica fruit extract from Kashan area. Avicenna J Phytomed, 2(3), 139–145.

Jou, P.C., Ho, B.Y., Hsu, Y.W. & Pan, T.M., 2010. The effect of Monascus secondary polyketide metabolites, monascin and ankaflavin, on

adipogenesis and lipolysis activity in 3T3-L1. J. Agric. Food Chem. 58(24), 12703-12709.

Kamisoyama, H., Honda, K., Tominaga, Y., Yokota, S. & Hasegawa, S., 2008. Investigation of the anti-obesity action of licorice flavonoid oil in diet-induced obese rats. Biosci. Biotechnol. Biochem. 72(12), 3225-3231.

Kim, M.J., Park, M., Jeong, M.K., Yeo, J., Cho, W.I., Chang, P.S., et al., 2010. Radical scavenging activity and anti-obesity effects in 3T3-L1

preadipocyte differentiation of Ssuk (Artemisia princeps Pamp.) extract. Food. Sci. Biotechnol. 19(2), 535-540.

Kumar, K.A., Gousia, S.K., Anupama, M. & Latha, J.N.L., 2013. A review on phytochemical constituents and biological assays of Averrhoa bilimbi. Int. J. Pharm. Pharm. Sci. Res. 3(4), 136-139.

Lahrita, L., Kato, E. & Kawabata, J., 2015. Uncovering potential of Indonesian medicinal plants on glucose uptake enhancement and lipid suppression in 3T3-L1 adipocytes. J Ethnopharmacol. 168, 229-236.

Lima, V.L.A.G.D., Mélo, E.D.A. & Lima, S., 2001. Physicochemical characteristics of bilimbi (Averrhoa bilimbi L.). Rev. Bras. Frutic. Jaboticabal. 23(2), 421-423.

Lois, K. & Kumar, S., 2009. Obesity and diabetes. Endocrinol. Nutr. 56, 38-42.

McGhie, T.K., Hunt, M. & Barnett, L.E., 2005. Cultivar and growing region determine the antioxidant polyphenolic concentration and composition of apples grown in New Zealand. J. Agric. Food Chem. 53(8), 3065-3070.

Moresco, H.H., Queiroz, G.S., Pizzolatti, M.G. & Brighente, I., 2012. Chemical constituents and evaluation of the toxic and antioxidant activities of Averrhoa carambola leaves. Rev. Bras. Farmacogn. Braz. J. Pharmacogn. 22(2), 319-324.

Park, Y.S., Yoon, Y. & Ahn, H.S., 2007. Platycodon grandiflorum extract represses up-regulated adipocyte fatty acid binding protein triggered by a high fat feeding in obese rats. World. J. Gastroenterol. 13(25), 3493-3499.

Pittler, M.H. and Ernst, E., 2004. Dietary supplements for body-weight reduction: a systematic review. Am. J. Clin. Nutr. 79(4), 529-536.

Roh, C., Jung, U. & Jo, S.K., 2012. Screening of anti-obesity agent from herbal mixtures. Molecules. 17(4), 3630-3638.

Sharma, S.P., Chung, H.J., Kim, H.J. and Hong, S.T., 2016. Paradoxical effects of fruit on obesity. Nutrients, 8(10), 633.

Singh, S., 2014. Effect of plant based formulations on obesity indicators in humans. Asian. J. Multidisc. Studies. 2(9),62–65.

Soeng, S., Evacuasiany, E., Widowati, W., Fauziah, N., Manik, V.T. & Maesaroh, M., 2015. Inhibitory potential of rambutan seeds extract and frac-tions on adipogenesis in 3T3-L1 cell line. J Exp Integr Med. 5, 55-60.

Swick, J.C., 2011. Effect of the flavonoid quercetin on adipocytes. Thesis. Department of Nutrition.

Utami, S., Endrini, S., Nafik, S., Lestari, I.M.T., Anindya, D., Bakar,E.A., Rozy, F., Said, F.F, Afifah, E., Arumwardana, S., Nufus, H., Rihibiha, D.D., Kusuma, H.S.W. Wibowo, S.H.B., Widowati, W. 2019. In vitro antioxidant and anti-obesity activities of freeze-dried Canarium sp., Averrhoa bilimbi L. and Malus domestica. InaBJ. 11(3):225-237

Vrhovsek, U., Rigo, A., Tonon, D. and Mattivi, F., 2004. Quantitation of polyphenols in different apple varieties. J. Agric. Food Chem. 52(21), 6532-6538.

Widowati W., Darsono, L., Suherman, J., Afifah, E., Rizal, R., Arinta, Y., Qodariah, R.L., Mozef, T., Suciati, T. 2018. Mangosteen peel extract (Garcinia mangostana L.) and its constituents to lower lipid content on adipogenesis cells model (3T3-L1). J Nat Remedies 18(2):41-47

Widowati W., Darsono, L., Suherman, J., Afifah, E., Rizal, R., Arinta, Y., Mozef, T., Suciati, T. 2020. Regulation of adipogenesis and key adipogenic gene expression by mangosteen pericarp extract ad xanthos in 3T3-L1. 27(1):14-21





DOI: https://doi.org/10.22146/mot.53861

Article Metrics

Abstract views : 3238 | views : 2180

Refbacks

  • There are currently no refbacks.




Copyright (c) 2021 Majalah Obat Tradisional

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

©Majalah Obat Tradisional (Traditional Medicine Journal)
 ISSN 2406-9086
Faculty of Pharmacy
Universitas Gadjah Mada