Sains Malaysiana 48(4)(2019): 781–790
http://dx.doi.org/10.17576/jsm-2019-4804-10
Protective Effects of Zingiber
zerumbet Ethyl Acetate Extract on Hydrogen Peroxide-Induced Damage of Red
Blood Cells
(Kesan Perlindungan Ekstrak Etil Asetat Zingiber
zerumbet pada Kerosakan Sel Darah Merah Aruhan Hidrogen Peroksida)
MOHD FUAD RAHMAT SAM1,2, ASMAH HAMID1, AHMAD ROHI GHAZALI1, SANTHANA RAJ LOUIS3 & SITI BALKIS BUDIN1*
1Programme of Biomedical
Science, Centre of Applied and Health Sciences, Faculty of Health Sciences,
Universiti Kebangsaan Malaysia, Jalan Raja Muda Abdul Aziz, 50300 Kuala Lumpur,
Federal Territory, Malaysia
2Department of Biomedical
Science, Kulliyyah of Allied Health Sciences, International Islamic University
Malaysia, Jalan Istana, 25200 Kuantan, Pahang Darul Makmur, Malaysia.
3Unit of Electron
Microscope, Institute for Medical Research, Jalan Pahang, 50588 Kuala Lumpur,
Federal Territory, Malaysia
Diserahkan:
30 Mac 2018/Diterima: 28 Januari 2019
ABSTRACT
Zingiber zerumbet is widely used
as therapeutic agent in traditional medicine and is reported to
exert antioxidant activities. This study evaluated in vitro
antioxidant potential of Z. zerumbet rhizome ethyl acetate
extract on hydrogen peroxide (H2O2)-induced red blood cells (RBCs)
damage; by measuring percentage of haemolysis, oxidative damage
and morphological changes in treated RBCs. On a preliminary dose-response
analysis, it was observed that incubation of RBCs
with extract at doses of 50, 25, 12.5 and 6.25 μg/mL all
had no significant effect on RBCs similar to NaCl control and BHT
(positive control), therefore, these concentrations
were used in the subsequent study. The RBCs were pre-incubated with extract in the chosen concentrations,
prior to treatment with H2O2. The
results showed that only 6.25 μg/mL+H2O2
group showed significantly (p<0.05) lower
percentage of haemolysis and oxidative damage; indicated by low
level of malondialdehyde (MDA)
and protein carbonyls (PC) compared to the H2O2
alone group. Electron microscopic examination further
showed that pre-treatment with 6.25 μg/mL extract reduced
the H2O2 –induced
morphological changes of RBCs. Phytochemical analysis of extract
using Gas Chromatography Mass Spectrometry (GCMS)
identified Zerumbone as the highest constituent compound (51.57%)
in this extract. In conclusion, this study indicated that 6.25
μg/mL ethyl acetate extract Z. zerumbet rhizome could
efficiently protect RBCs
against oxidative damage induced by H2O2 and
this effects could possibly due the high constituent of Zerumbone.
Keywords: Haemolysis; lipid
peroxidation; red blood cells; Zingiber zerumbet
ABSTRAK
Zingiber zerumbet digunakan secara
meluas sebagai agen terapeutik dalam perubatan tradisi dan dilaporkan
mempunyai sifat antioksidan. Kajian ini dinilai melalui potensi
in vitro antioksidan ekstrak Z. zerumbet rizom etil
asetat pada hidrogen peroksida (H2O2)-teraruh
kerosakan sel-sel darah merah (RBCs); dengan mengukur peratus
hemolisis, kerosakan oksidatif dan perubahan morfologi untuk RBCs
terawat. Analisis awalan dos gerak balas, dicerapi bahawa inkubator
RBCs
dengan ekstrak pada dos 50, 25, 12.5 dan 6.25 μg/mL tidak
menunjukkan kesan ketara RBCs yang menyerupai kawalan NaCl dan BHT (kawalan
positif), maka kepekatan ini digunakan dalam kajian yang seterusnya.
RBCs
telah pra-inkubasi dengan ekstrak dalam kepekatan pilihan, sebelum
dirawat dengan H2O2. Hasil kajian menunjukkan bahawa hanya
kumpulan 6.25 μg/mL + H2O2 menunjukkan
signifikan (p<0.05) mengurangkan peratusan hemolisis
dan kerosakan oksidatif; ditunjukkan oleh tahap rendah malondialdehid
(MDA)
dan protein karbonil (PC) berbanding kumpulan H2O2
sahaja. Pemeriksaan mikroskop elektron menunjukkan
bahawa pra rawatan dengan ekstrak 6,25 μg/mL mengurangkan
morfologi H2O2–teraruh
perubahan RBCs. Analisis fitokimia menggunakan Kromatografi Gas Jisim
Spektroskopi (GCMS) mengenal pasti zerumbon sebagai
yang bentuk sebatian tertinggi (51.57%) di dalam ekstrak. Kesimpulannya,
kajian ini menunjukkan bahawa 6.25 μg/mL ethil asetat rizom
ekstrak Z. zerumbet secara cekap dapat melindungi RBCs
daripada kerosakan oksidatif teraruh oleh H2O2
dan kesan ini boleh disebabkan oleh sebatian zerumbon
yang tinggi.
Kata
kunci: Hemolisis; pemperoksidaan lipid; sel-sel darah merah; Zingiber zerumbet
RUJUKAN
Abd Hamid, Z., Budin,
S.B., Ng, W.J., Hamid, A., Husain, K. & Mohamed, J. 2012. Nephroprotective
effects of Zingiber zerumbet Smith ethyl acetate extract against
paracetamol-induced nephrotoxicity and oxidative stress in rats. J. Zhejiang
Univ. Sci. B. 13(3): 176-185.
Agrawal, D. &
Sultana, P. 1993. Biochemical and structural alterations in rat erythrocytes
due to hexachlorocyclohexane exposure. Food Chem. Toxicol. 31(6):
443-448.
Anderson, D. &
Phillips, B. 1999. Comparative in vitro and in vivo effects of
antioxidants. Food Chem. Toxicol. 37(9-10): 1015-1025.
Hamid, A., Lee, L.S.,
Karim, S.R. & Jufri, N.F. 2018. Hepatoprotective effects of zerumbone
against paracetamol-induced acute hepatotoxicity in rats. Malays J. Med.
Sci. 25(2): 64-71.
Banerjee, A., Kunwar,
A., Mishra, B. & Priyadarsini, K. 2008. Concentration dependent
antioxidant/pro-oxidant activity of curcumin: Studies from AAPH induced
hemolysis of RBCs. Chem. Biol. Interact. 174(2): 134-139.
Beyer, W.F. &
Fridovich, I. 1987. Assaying for superoxide dismutase activity: Some large
consequences of minor changes in conditions. Anal. Biochem. 161(2):
559-566.
Bhatia, K., Elmarakby,
A.A., El-Remessey, A. & Sullivan, J.C. 2012. Oxidative stress contributes
to sex differences in angiotensin II-mediated hypertension in spontaneously
hypertensive rats. Am. J. Physiol. Regul. Integr. Comp. Physiol. 302(2):
274-282.
Bhuiyan, M.N.I.,
Chowdhury, J.U. & Begum, J. 2009. Chemical investigation of the leaf and
rhizome essential oils of Zingiber zerumbet (L.) Smith from Bangladesh. Bangladesh
J. Pharmacol. 4(1): 9-12.
Chakraborthy, A.,
Ramani, P.I., Sherlin, H.J., Premkumar, P. & Natesan, A. 2014. Indian J.
Dent. Res. 25(4): 499-504.
Chong, C.L.G., Othman,
F. & Farida Hussan, K. 2018. Vascular protective effects of Morinda
citrifolia leaf extract on postmenopausal rats fed with thermoxidized palm
oil diet: Evidence at microscopic level. International Journal of Vascular
Medicine 2018: Article ID. 6317434.
Cimen, M.Y. 2008. Free
radical metabolism in human erythrocytes. Clin. Chim. Acta. 390(1-2):
1-11.
Clemens, M.R. &
Waller, H.D. 1987. Lipid peroxidation in erythrocytes. Chem. Phys. Lipids 45(2-4):
251-268.
da Silva, T.M.,
Pinheiro, C.D., Orlandi, P.P., Pinheiro, C.C. & Pontes, G.S. 2018.
Zerumbone from Zingiber zerumbet (L.) smith: A potential prophylactic
and therapeutic agent against the cariogenic bacterium Streptococcus mutans.
BMC Complementary and Alternative Medicine 18: 301.
Ellman, G.L. 1959.
Tissue sulfhydryl groups. Arch. Biochem. Biophys. 82(1): 70-77.
Gaschlera, M.M. &
Stockwell, B.R. 2017. Lipid peroxidation in cell death. Biochemical and
Biophysical Research Communications 482: 419-425
Hamid, A., Budin, S.B.,
Mohamed, R.A.P., Abd Manaf, N., Yuhana, N.Y., Husain, K., Abdul Hamid, Z. &
Mohamed, J. 2011. Role of oxidative stress in the protective effects of Zingiber
zerumbet Smith ethyl-acetate extract against paracetamol-induced
hepatotoxicity in Sprague-Dawley rats. Aust. J. Basic Appl. Sci. 5(8):
1519-1525.
Hattangadi, S.M. &
Lodish, H.F. 2007. Regulation of erythrocyte lifespan: Do reactive oxygen
species set the clock? J. Clin. Investig. 117(8): 2075-2077.
Holland-Letz, T. &
Kopp-Schneider, A. 2015. Optimal experimental designs for dose-response studies
with continuous endpoints. Arch. Toxicol. 89(11): 2059-2068.
Hossain, M.E.,
Bhattacharjee, S.C. & Islam, M.D.E. 2005. Chemical investigation on Zingiber
zerumbet. Fron. Nat. Prod. Chem. (1): 185-187.
Hunter, M.I.S. &
Mohamed, J. 1986. Plasma antioxidants and lipid peroxidation products in
Duchenne muscular dystrophy. Clin. Chim. Acta 155(2): 123-131.
Jang, D.S., Min, H.Y.,
Kim, M.S., Han, A.R., Windono, T., Jeohn, G.H., Kang, S.S., Lee, S.K. &
Seo, E.K. 2005. Humulene derivatives from Zingiber zerumbet with the
inhibitory effects on lipopolysaccharides-induced nitric oxide production. Chem.
Pharm. Bull. 53(7): 829-831.
Kamboj, V.P. 2000.
Herbal medicine. Curr. Sci. 78(1): 35-39.
Kiruthiga, P., Shafreen,
R.B., Pandian, S.K. & Devi, K.P. 2007. Silymarin protection against major
reactive oxygen species released by environmental toxins: Exogenous H2O2 exposure in
erythrocytes. Basic Clin. Pharmacol. Toxicol. 100(6): 414-419.
Konyalioglu, S. &
Karamenderes, C. 2005. The protective effects of Achillea L. species
native in Turkey against H2O2-induced oxidative damage in human erythrocytes
and leucocytes. J. Ethnopharmacol. 102(2): 221-227.
Lawrence, R.A. &
Burk, R.F. 1976. Glutathione peroxidase activity in selenium-deficient rat
liver. Biochem. Biophys. Res. Commun. 71(4): 952-958.
Levine, R.L., Garland,
D., Oliver, C.N., Amici, A., Climent, I., Lenz, A.G., Ahn, B.W., Shaltiel, S.
& Stadtman, E.R. 1990. Determination of carbonyl content in oxidatively
modified proteins. Methods in Enzymology 186: 464-478.
Nag, A., Bandyopadhyay,
M. & Mukherjee, A. 2013. Antioxidant activities and cytotoxicity of Zingiber
zerumbet (L.) Smith rhizome. J. Pharmacogn. Phytochem. 2(3):
102-108.
Nagababu, E., Chrest,
F.J. & Rifkind, J.M. 2003. Hydrogen-peroxide-induced heme degradation in
red blood cells: The protective roles of catalase and glutathione peroxidase. Biochim.
Biophys. Acta 1620(1-3): 211-217.
Okoko, T. & Ere, D.
2012. Reduction of hydrogen peroxide-induced erythrocyte damage by Carica
papaya leaf extract. Asian Pacific Journal of Tropical Biomedicine 2(6):
449-453.
Qasim, N. & Mahmood,
R. 2015. Diminution of oxidative damage to human erythrocytes and lymphocytes
by creatine: Possible role of creatine in blood. Plos ONE 10(11):
e0141975.
Rashid, R.A. &
Pihie, A.L. 2005. The antiproliferative effects of Zingiber zerumbet extracts
and fractions on the growth of human breast carcinoma cell lines. Malays J.
Pharm. Sci. 3(1): 45-52.
Ruslay, S., Abas, F.,
Shaari, K., Zainal, Z., Maulidiana, Sirat, H., Israf, D.A. & Lajis, N.H.
2007. Characterization of the components present in the active fractions of
health gingers (Curcuma xanthorrhiza and Zingiber zerumbet) by
HPLC-DAD-ESIMS. Food Chem. 104(3): 1183-1191.
Sen, S., Chakraborty,
R., De, B. & Mazumder, J. 2009. Plants and phytochemicals for peptic ulcer:
An overview. Pharmacogn. Rev. 3(6): 270.
Somchit, M.N. &
Shukriyah, M.H.N. 2003. Anti inflammatory property of ethanol and water
extracts of Zingiber zerumbet. Indian J. Pharmacol. 35(3):
181-182.
Srour, M.A., Bilto, Y.Y., Juma, M. &
Irhimeh, M.R. 2000. Exposure of human erythrocytes to oxygen radicals causes
loss of deformability, increased osmotic fragility, lipid peroxidation and
protein degradation. Clin. Hemorheol. Microcirc. 23(1): 13-21.
Taib, I.S., Budin, S.B., Ain, S.M.S.N., Mohamed, J., Louis,
S.R., Das, S., Sallehudin, S., Rajab, N.F. & Othman, H. 2009. Toxic effects
of Litsea elliptica Blume essential oil on red blood cells of
Sprague-Dawley rats. J. Zhejiang. Univ. Sci. 10(11): 813.
Tavazzi, B., Di Pierro,
D., Amorini, A.M., Fazzina, G., Tuttobene, M., Giardina, L.G. 2000. Energy
metabolism and lipid peroxidation of human erythrocytes as a function of
increased oxidative stress. FEBS J. 267(3): 684-689.
Tedesco, I., Russo, M.,
Russo, P., Iacomino, G., Russo, G.L., Carraturo, A., Faruolo, C., Moio, L.
& Palumbo, R. 2000. Antioxidant effect of red wine polyphenols on red blood
cells. J. Nutri. Biochem. 11(2): 114-119.
Touriño, S., Lizárraga,
D., Carreras, A., Matito, C., Ugartondo, V., Mitjans, M., Centelles, J.,
Vinardell, M., Juliá, L. & Cascante, M. 2008. Antioxidant/prooxidant
effects of bioactive polyphenolics. Elect. J. Environ. Agric. Food Chem. 7(8):
3348-3352.
*Pengarang untuk surat-menyurat; email:
balkis@ukm.edu.my