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Sains Malaysiana 50(1)(2021): 171-179
http://dx.doi.org/10.17576/jsm-2021-5001-17
Quantified Piper sarmentosum Roxb. Leaves Aqueous Leaf Extract and Its
Antihypertensive Effect in Dexamethasone-Induced Hypertensive Rats
(Kuantifikasi Daun Piper
sarmentosum Roxb. Ekstrak Daun Akueus dan Kesan Antihipertensi pada Tikus
Hipertensi Aruhan Deksametason)
MUHAMMAD FIRDAUS AZMI1, AMILIA AMINUDDIN1,
JAMIA AZDINA JAMAL2, ADILA A HAMID1 & AZIZAH UGUSMAN1*
1Physiology Department, Faculty of Medicine, Universiti Kebangsaan Malaysia
Medical Centre, 56000 Kuala Lumpur, Federal Territory, Malaysia
2Drug and Herbal Research Centre, Faculty of Pharmacy, Universiti Kebangsaan
Malaysia, 50300 Kuala Lumpur, Federal Territory, Malaysia
Received: 1 January 2020/Accepted:
22 June 2020
ABSTRACT
The quality control of raw herbal
materials is important to ensure the safety, efficacy, and reproducibility of
herbal products. Herbal products with consistent efficacy should be
standardized and quantified based on their bioactive phytochemical compounds. Piper sarmentosum Roxb. has been reported for its antihypertensive activity. However, its
antihypertensive effect on dexamethasone-induced hypertension still lacks
information. In this study, the quality of two batches of raw P.
sarmentosum leaf materials was assessed
for heavy metal and microbial contents, and their aqueous extracts were assayed
for antioxidant activity. The aqueous extract of the second batch of P.
sarmentosum leaves was the only extract
that passed the heavy metal and microbial limits and had the highest
antioxidant activity (50.00 ± 2.88%); therefore, this extract was used for
subsequent studies. The extract was quantified for two phytochemical markers,
rutin (0.09 ± 0.002%) and vitexin (0.23 ± 0.007%), using a validated ultrahigh
performance liquid chromatography method. The quantified extract (500 mg/kg/day
orally) was able to lower the systolic blood pressure, diastolic blood
pressure, and mean arterial pressure of dexamethasone-induced hypertensive rats
comparable to the positive control drug, captopril. In summary, the quantified
aqueous extract of P. sarmentosum based on rutin and vitexin lowers the
blood pressure of dexamethasone-induced hypertensive rats, but its underlying
mechanism warrants further investigation.
Keywords: Dexamethasone; hypertension; Piper sarmentosum; quantified extract; ultrahigh performance liquid chromatography
ABSTRAK
Kawalan kualiti ke
atas bahan mentah herba adalah penting untuk memastikan keselamatan,
keberkesanan dan kebolehkeluaran produk herba tersebut. Produk herba yang
mempunyai keberkesanan yang tekal perlu dipiawai dan dikuantifikasi berdasarkan
sebatian fitokimia bioaktif masing-masing. Piper sarmentosum Roxb. dilaporkan
mempunyai aktiviti antihipertensi. Namun begitu, masih terdapat kekurangan
maklumat berkenaan kesannya terhadap hipertensi aruhan deksametason. Dalam
kajian ini, kualiti dua kumpulan bahan mentah daun P. sarmentosum diukur kandungan logam berat dan mikrobnya
dan ekstrak akueusnya diuji untuk aktiviti antioksidan. Hanya ekstrak akueus
daripada kumpulan kedua daun P.
sarmentosum menepati had kandungan
logam berat dan mikrob serta mempunyai aktiviti antioksidan tertinggi (50.00 ±
2.88%); oleh itu ekstrak ini digunakan untuk kajian berikutnya. Ekstrak
tersebut dikuantifikasi dengan dua penanda fitokimia, rutin (0.09 ± 0.002%) dan
viteksin (0.23 ± 0.007%), menggunakan kaedah kromatografi cecair berprestasi
ultratinggi yang telah disahkan. Rawatan dengan ekstrak yang telah
dikuantifikasi (500 mg/kg/hari secara oral) dapat mengurangkan tekanan darah
sistolik, tekanan darah diastolik dan tekanan arteri purata tikus hipertensi
aruhan deksametason setanding dengan ubat kawalan positif, captopril. Kesimpulannya,
ekstrak akueus P. sarmentosum yang
dikuantifikasi berdasarkan rutin dan viteksin berjaya merendahkan tekanan darah
tikus hipertensi aruhan deksametason tetapi mekanisme dasarnya perlu dikaji
dengan lebih lanjut lagi.
Kata kunci: Deksametason; ekstrak dikuantifikasi; hipertensi; kromatografi
cecair berprestasi ultratinggi;
REFERENCES
Albrecht, E., Kern, C. & Kirkham, K.R. 2015. A
systematic review and meta-analysis of perineural dexamethasone for peripheral
nerve blocks. Anaesthesia 70(1):
71-83.
Amran, A.A., Zakaria, Z., Othman, F., Das, S., Raj, S.
& Nordin, N.A.M.M. 2010. Aqueous extract of P. sarmentosum decreases atherosclerotic lesions in high
cholesterolemic experimental rabbits. Lipids in Health and Disease 9(44): 1-6.
Borde, P., Mohan, M. & Kasture, S. 2011. Effect of
myricetin on deoxycorticosterone acetate (DOCA)-salt-hypertensive rats. Natural
Product Research 25(16):
1549-1559.
British Pharmacopeia Commission. 2018. British Pharmacopeia. London: Stationery
Office.
Calabro, V., Litterio, M.C., Fraga, C.G., Galleano, M.
& Piotrkowski, B. 2018. Effects of quercetin on heart nitric oxide
metabolism in L-NAME treated rats. Archives of Biochemistry and Biophysics 647: 47-53.
Ghazali, N.F., Mohd, M.A., Ibrahim, M.A. & Muhammad,
T.S.T. 2018. Phytochemical and pharmacological profile of kaduk (Piper sarmentosum Roxb.). Malayan Nature Journal 70(2): 195-202.
Hafizah, A.H., Zaiton, Z., Zulkhairi, A., Ilham, A.M.,
Mohd, M., Nor, N. & Zaleha, A.M. 2010. P.
sarmentosum as an antioxidant on oxidative stress in human umbilical vein
endothelial cells induced by hydrogen peroxide. Journal of Zhejiang
University 11(5): 357-365.
Hasona, N. & Morsi, A. 2018. Grape seed extract
alleviates dexamethasone-induced hyperlipidemia, lipid peroxidation, and
hematological alteration in rats. Indian
Journal of Clinical Biochemistry 34(2): 213-218.
Hussain, K., Ismail, Z., Sadikun, A. & Ibrahim, P.
2009. Antioxidant, anti-TB activities, phenolic and amide contents of
standardised extracts of Piper
sarmentosum Roxb. Natural Product Research 23(3): 238-249.
Hussain, K., Ismail, Z., Sadikun, A. & Ibrahim, P.
2010. Standardization and in vivo antioxidant activity of ethanol extracts of fruit and leaf of Piper sarmentosum. Planta Medica 76(5): 418-425.
Huyut, Z., Bakan, N., Yildirim, S. & Alp, H.H. 2018.
Effects of the phosphodiesterase-5 (PDE-5) inhibitors, avanafil and zaprinast,
on bone remodeling and oxidative damage in a rat model of
glucocorticoid-induced osteoporosis. Medical
Science Monitor Basic Research 24:
47-58.
ICH. 2005. Validation of analytical procedures: text and
methodology Q2(R1). International
Conference on Harmonisation of Technical Requirements for Registration of
Pharmaceuticals for Human Use. Switzerland: International Conference on
Harmonisation.
Kaur, S. & Muthuraman, A. 2016. Therapeutic
evaluation of rutin in two-kidney one-clip model of renovascular hypertension
in rat. Life Sciences 150:
89-94.
Kumari, R. & Kotecha, M. 2016. A review on the
standardization of herbal medicines. International
Journal of Pharma Sciences and Research 7(2): 97-106.
Liu, W., Dongxue, Y., Li, N., Xiaogai, H., Dongmei, W.,
Li, D. & Liu, J. 2016. Influence
of environmental factors on the active substance production and antioxidant
activity in Potentilla fruticosa L. and its quality assessment. Nature 6: 1-18.
Liu, W., Zhao, Z., Na, Y., Meng, C., Wang, J. & Bai,
R. 2018. Dexamethasone-induced production of reactive oxygen species promotes
apoptosis via endoplasmic reticulum stress and autophagy in MC3T3-E1 cells. International
Journal of Molecular Medicine 41(4):
2028-2036.
Manjusha, R.K., Begum, S., Begum, A. & Bharathi, K.
2018. Antioxidant potential of piperidine containing compounds-a short review. Asian Journal of Pharmaceutical and Clinical
Research 11(8): 66-73.
Meyer, V.R. 2013. Practical High-Performance Liquid
Chromatography. Chichester: John Wiley & Sons.
National Pharmaceutical Regulatory Agency (NPRA),
Ministry of Health. 2016. Drug
Registration Guidance Document (DRGD). 2nd ed. Selangor: NPRA.
Nik Mohd Alwi, N.A., Zakaria, Z., Karim, A.A.H., Nordin,
N.A.M.M. & Ugusman, A. 2018. Antihypertensive effect of Piper sarmentosum in L-NAME-induced
hypertensive rats. Sains Malaysiana 47(10): 2421-2428.
Ong, S., Zhang, Y. & Whitworth, J. 2009. Mechanisms
of dexamethasone-induced hypertension. Current Hypertension Reviews 5(1): 61-74.
Safaeian, L., Baniahmad, B., Esfandiari, Z. & Alavi,
S.A. 2017. Portulaca oleracea seeds extract
does not prevent dexamethasone-induced hypertension in rats. Journal of
Herbmed Pharmacology 7(1):
8-12.
Seyyedan, A., Yahya, F., Kamarolzaman, M.F.F., Suhaili,
Z., Desa, M.N.M., Khairi, H.M., Somchit, M.N., Fatimah, C.A., Teh, L.K.,
Salleh, M.Z. & Zakaria, Z.A. 2013. Review on the ethnomedicinal,
phytochemical and pharmacological properties of Piper sarmentosum: Scientific justification of its traditional use. Tang (Humanitas Medicine) 3(3): 1-32.
Shi, Y.N., Liu, F.F., Jacob, M.R., Li, X.C., Zhu, H.T.,
Wang, D., Cheng, R.R., Yang, C.R., Xu, M. & Zhang, Y.J. 2017. Antifungal
amide alkaloids from the aerial parts of Piper
flaviflorum and P. sarmentosum. Planta
Medica 83(1): 143-150.
Tobias, S., Habermeier, A., Siuda, D., Reifenberg, G.,
Xia, N., Closs, E.I., Förstermann, U. & Li, H. 2015. Dexamethasone,
tetrahydrobiopterin and uncoupling of endothelial nitric oxide synthase. Journal
of Geriatric Cardiology 12(5):
528-539.
Trindade, N.R., Lopes, P.R., Naves, L.M., Fajemiroye,
J.O., Alves, P.H., Amaral, N.O., Liao, L.M., Rebelo, A.C.S., Castro, C.H.,
Braga, V.A., Menegatti, R. & Pedrino, G.R. 2018. The newly synthesized
pyrazole derivative 5-(1-(3 fluorophenyl)-1H-pyrazol-4-yl)-2H-tetrazole reduces
blood pressure of spontaneously hypertensive rats via NO/cGMO pathway. Frontiers in Physiology 9(1073): 1-10.
Ugusman, A., Zakaria, Z., Hui, C.K. & Nordin,
N.A.M.M. 2011. P. sarmentosum inhibits ICAM-1 and Nox4 gene expression in oxidative stress-induced human
umbilical vein endothelial cells. BMC Complementary
and Alternative Medicine 11(31):
1-8.
Ugusman, A., Zaiton, Z., Hui, C.K., Nordin, N.A.M.M.
& Zaleha, A.M. 2012. Flavonoids of P.
sarmentosum and its cytoprotective effects against oxidative stress. EXCLI
Journal 11: 705-714.
Ugusman, A., Zakaria, Z., Hui, C.K. & Nordin,
N.A.M.M. 2010. P. sarmentosum increases nitric oxide production in oxidative stress: A study on human
umbilical vein endothelial cells. Clinics 65(7): 709-714.
Vrankova, S., Zemancikova, A., Torok, J. & Pechanova,
O. 2019. Effect of low dose L-NAME pretreatment on nitric oxide/reactive oxygen
species balance and vasoactivity in L-NAME/Salt-induced hypertensive rats. Journal of Physiology and Pharmacology 70(4): 535-544.
WHO. 2013. Traditional
Medicine Strategy. Alternative and
Integrative Medicine. Geneva: WHO Press.
Xiao, H., Wen, Y., Pan, Z., Shangguan, Y., Qin, J., Tan,
Y., Jiang, H., Li, B., Zhang, Q., Chen, L. & Wang, H. 2018. Increased
H3K27ac level of ACE mediates the intergenerational effect of low peak bone
mass induced by prenatal dexamethasone exposure in male offspring rats. Cell
Death and Disease 9(638):
1-14.
Zainudin, M.M., Zakaria, Z. & Nordin, N.A.M.M. 2015.
The use of P. sarmentosum leaves
aqueous extract (KadukmyTM) as antihypertensive agent in spontaneous
hypertensive rats. BMC Complementary
and Alternative Medicine 15(54): 1-10.
Zuza Jnr., E., Muitia, A., Amane, M.I.V., Brandenburg,
R.L., Emmott, A. & Mondjana, A.M. 2018. Effect of harvesting time and
drying methods on aflatoxin contamination in groundnut in Mozambique. Journal
of Postharvest Technology 6(2):
90-103.
*Corresponding author; email: dr.azizah@ppukm.ukm.edu.my
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