Synergism of Antioxidant Activity Combination of Buas-Buas (Premnaserratifolia Linn.), Meniran (Phyllanthusniruri L.), Secang (Caesalpiniasappan) and Roselle (Hibiscus sabdarifa) Extracts

https://doi.org/10.22146/mot.51328

Isnindar Isnindar(1*), Sri Luliana(2)

(1) Biology Laboratory, Faculty of Medicine, Universitas Tanjungpura
(2) Biology Laboratory, Faculty of Medicine, Universitas Tanjungpura
(*) Corresponding Author

Abstract


Buas-buas, meniran, secang, and rosella have biological and pharmacological activities as antioxidants. The combination of the four plants is expected to provide a more potent synergistic effect on antioxidant activity. The purpose of this study was to analyze the total phenol content, total flavonoids, and antioxidant effects before and after combination. The combination of extracts, buas-buas, meniran, secang, and rosella which are used in sequence is (1: 1: 1/2: 1/2), (1: 2: 1/2: 1/2), and (2: 1 : 1/2: 1/2). Plants used in the form of simplicia was extracted by maceration method. Radical capture activity uses DPPH and IC50 values are determined. Determination of total phenol is expressed equivalent to gallic acid. Total flavonoids are expressed as quercetin equivalents. The phenol and flavonoid content obtained are then correlated with antiradical activity. The results showed that the best IC50 values were in the combination of ratios (1: 1: 1/2: 1/2) that is (11.0 µg / mL), then (1: 2: 1/2: 1/2) which was 13.3 µg / mL, and (2: 1: 1/2: 1/2) which is 19.4 µg / mL. The highest total phenolic and flavonoid content in the ratio (1: 2: 1/2: 1/2) is 33.57% w/w EAG and 74.00% w/w EQ. Correlation analysis between IC50 values with total phenolic and flavonoid contents showed a positive correlation with R2 values of 0.8236 and 0.0102 with positive slope. Thus, it can be concluded that the total phenol content influences free radical scavenging activity by 82.36%, while the effect of total flavonoid content was only 1.02%.


Keywords


antioxidant; DPPH; buas-buas; meniran; secang; roselle

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References

Aiswarya G, (2013), Antioxidant properties of flavonoid rich fraction from the leaves of Premnaintegrifolia, International Journal of Ethnomedicine and Pharmacological Research (2013), Vol.1, Issue 2, P.132-137, ISSN No.2347-2901(Print) 2347-291X(Online).

Aquino R, Caceres A, Morelli S, Rastelli L. 2002. An Extract of Tageteslucida and its Phenolic Constituents as Antioxidants, J. Nat. Prod. 65, 17731776.

Awwalina F. Rodina, Iskandar Sobri, Dhadhang W. Kurniawan, (2016), Krim Antioksidan EkstrakEtanolKelopakBungaRosela (Hibiscus sabdariffa L.), ActaPharmaciae Indonesia Maret 2016, 4(1) 15-20; ISSN: 2337-8433.

Bagalkotkar G, S. R. Sagineedu, M. S. Saad and J. Stanslas, (2007), Phytochemicals from Phyllanthusniruri Linn. and their pharmacological properties: a review, Article in Journal of Pharmacy and Pharmacology January 2007, DOI: 10.1211/jpp.58.12.0001 · Source: PubMed

Bramley, G.L.C., Go, R., de Kok, R.P.J. 2011. Lamiaceae. In: E. Soepadmo, L.G. Saw, R.C. K. Chung, R. Kiew (eds). Tree Flora of Sabah and Sarawak, Vol. 7. FRIM, Kuala Lumpur, pp: 42–49.

Calixto JB, Santos AR, CechinelFilho V, Yunes RA (1998) A review of the genus Phyllanthus: their chemistry, pharmacology, and therapeutic potencial. Med Res Rev 18: 225.

de Kok, R. 2013. The genus Premna L. (Lamiaceae) in the Flora Malesiana area. Kew Bull. 68, 1–30.

Ferreira, I.C.F.R., Baptista, P., Vilas-Boas, M., Barros L. 2007. Free-radical scavenging capacity and reducing power of wild edible mushrooms from northeast Portugal: individual cap and stipe activity. Food Chem. 100, 1511–1516.

Grewal RC. Medicinal Plants. Campus Book International: New Delhi, 1st Edi. 1984, 298-304

Harjit K, Amini M H, Suttee A, (2016), Evaluation of Antioxidant and Anthelmintic Properties of Caesalpiniasappan L. Leaves, International Journal of Pharmacognosy and Phytochemical Research 2016; 8(2); 362-368, ISSN: 0975-4873

Inggrid Maria, Yansen Hartanto danJesslyn Fedora Widjaja, (2018), Karakteristik Antioksidan pada KelopakBunga Rosella (Hibiscus sabdariffa Linn.), JurnalRekayasa Hijau No.3 | Vol. 2 ISSN: 2550-1070.

I.Y.P. Chua, P.J.H. King, K.H. Ong1, S.R. Sarbini1, P.H. Yiu, (2016), Influence of light intensity and temperature on antioxidant activity in Premnaserratifolia L, Journal of Soil Science and Plant Nutrition, 2015, 15 (3), 605-614

Isnindar, SubagusWahyuono, SitarinaWidyarini, danYuswanto, (2016), Determination Of Antioxidant Activities of Buas-Buas Leaves (Premnaserratifolia L.) USING DPPH (2,2-diphenyl-1picrylhydrazyl) METHOD, Trad. Med. J., September - December 2016 Vol. 21(3), p 111-115 ISSN : 1410-5918

Karthikeyan, M., Deepa, M.K. 2011. Anti-inflammatory activity of Premnacorymbosa (Burm. f.) Rottl. &Willd. leaves extracts in Wistar albino rats. Asian Pacific J. Trop. Med. 4, 510–513.

Mardiah, FR, Zakaria, Prangdimurti E&Damanik, R 2015, Perubahan kandungan kimia sari roselamerahdanunguhasilpengeringanmen

ggunakan cabinet dryer dan fluidized bed drayer, J JurnalTeknologiIndustriPertanian 25(1):1–7.

Meixa W, Yanjin C. (1995), Herbs of the genus Phyllanthus in the treatment of Chronic hepatitis B observation with three preparation from different geographic sites, J Lab. Clin. Med. 1995; 126(2):350

Mrinal K. Sarkar., Parames C. Sil., (2010). Prevention of tertiary butyl hydroperoxide induced oxidative impairment and cell death by a novel antioxidant protein molecule isolated from the herb, Phyllanthusniruri. Toxicology in Vitro, 24, 1711–1719

Rodrigo, R., Bosco, C. 2006. Oxidative stress and protective effect of polyphenols: comparative studies in human and rodent kidney. Comp. Biochem. Physiol. C Toxicol. Pharmacol. 142, 317–327.

Sari RamdanadanSuhartati (2016), Secang ( Caesalpiniasappan L.) : Tumbuhan Herbal Kaya Antioksidan, Info Teknis EBONI Vol. 13 No. 1, Juni 2016 : 57 - 67

Sarbini, D., 2007, OptimalisasiDosisEkstrakBunga Rosella Merah (Hibiscus sabdariffa Linn) Sebagai Anti AterosklerosisUntukMenghambatAktifasi NF-κβ, TNF-α dan ICAM-1 Pada KulturSelEndothel Yang Dipapar Low Density Lipoprotein Teroksidasi, JurnalPenelitianSainsdanTeknologi, Vol.8, No.2, 99-109.

Sipahli, S., Mohanlall, V. &Mellem, J. J., 2016. Stability and degradation kinetics of crude anthocyanin extracts from H. sabdariffa. Food Science and Technology.

Unander DW, Herbert HB, Connete JL, Robert TM. Cultivation of Phyllanthusniruri and evaluation of variable potentially affecting yield and the inhibition of viral DNA polymerase. Economic Botany 1993; 47:79-88.



DOI: https://doi.org/10.22146/mot.51328

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