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Sains Malaysiana 48(8)(2019): 1737–1744
http://dx.doi.org/10.17576/jsm-2019-4808-20
Inhibitory Effects of Gynura
procumbens Ethanolic Extract on Nitric Oxide Production and Inducible
Nitric Oxide Synthase (iNOS) Protein Expression in Macrophages
(Kesan Perencatan Ekstrak
Etanol Gynura procumbens terhadap Penghasilan Nitrik Oksida
dan Ekspresi Protein Sintase Nitrik Oksida Teraruh (iNOS) di dalam
Makrofaj)
TAN JIAH NING1, SYARATUL DALINA YUSOFF1, ZAKIAH JUBRI2, FHATAHEYA BUANG1, TAN ZE SONG1, AMEERAH BUDIONO1, IBRAHIM JANTAN3, ROZA DIANITA4, ENDANG KUMOLOSASI1, NORAZRINA AZMI1 & NORSYAHIDA MOHD FAUZI1*
1Drug
and Herbal Research Centre, Faculty of Pharmacy, Universiti Kebangsaan Malaysia,
Jalan Raja Muda Abdul Aziz, 50300 Kuala Lumpur, Malaysia
2Department
of Biochemistry, Faculty of Medicine, Universiti Kebangsaan Malaysia, Jalan
Yaacob Latiff, Bandar Tun Razak, 56000 Cheras, Kuala Lumpur, Federal Territory,
Malaysia
3School
of Pharmacy, Taylor's University, Lakeside Campus, 47500 Subang
Jaya, Selangor Darul Ehsan, Malaysia
4School
of Pharmaceutical Sciences, Universiti Sains Malaysia, 11800 USM Pulau Pinang, Malaysia
Diserahkan: 14 September 2018/Diterima: 31 Mei
2019
ABSTRACT
Nitric oxide (NO)
overproduction by inducible nitric oxide synthase (iNOS) may be associated with
acute and chronic inflammations. Macrophages as important cells in the innate
immune system are able to be stimulated and can lead to iNOS activation and
excessive NO production. Gynura
procumbens is a medicinal plant traditionally used in treating various
ailments including inflammation but the mechanism of anti-inflammatory activity
of this plant is still elusive. This study was carried out to investigate the
anti-inflammatory therapeutic effects of Gynura procumbens ethanolic
extract on NO production and iNOS protein expression in RAW 264.7
macrophages stimulated with lipopolysaccharide (LPS).
Cell viability of RAW 264.7 macrophages treated with Gynura
procumbens ethanolic extract was determined by MTT assay. NO production was determined by Griess assay following Gynura
procumbens ethanolic extract treatment alone or in combination with LPS stimulation.
Protein expression of iNOS was determined by western blot. RAW 264.7
macrophages viability of more than 90% was observed after 24 h treatment with Gynura
procumbens ethanolic extract concentration range of 3.9 μg/mL to
500 μg/mL. Significant inhibition of NO production
level has been identified in LPS-stimulated RAW 264.7
cells pre-treated with 250 μg/mL Gynura procumbens ethanolic
extract (p<0.05) while all selected concentrations of Gynura
procumbens ethanolic extract showed no significant alteration of NO production
in the absence of LPS stimulation. Pre-treatment of 250 μg/mL Gynura procumbens ethanolic extract also demonstrated significant
suppression of iNOS protein expression in LPS-stimulated RAW 264.7 cells (p<0.05). In conclusion, this study
demonstrates that Gynura procumbens ethanolic extract exhibits
anti-inflammatory potential through inhibition of NO production
and iNOS protein expression in LPS-stimulated macrophages,
suggesting that this plant could be further researched for its beneficial use
in inflammatory disorders.
Keywords: Gynura procumbens; inducible nitric oxide synthase;
inflammation; lipopolysaccharide; macrophage; nitric oxide
ABSTRAK
Penghasilan nitrik oksida (NO) yang berlebihan oleh sintase nitrik oksida teraruh (iNOS) mungkin boleh dikaitkan dengan radang akut dan kronik. Makrofaj sebagai sel yang penting dalam sistem keimunan inat berupaya dirangsang dan menyebabkan aktivasi iNOS dan penghasilan NO yang berlebihan. Gynura procumbens ialah tumbuhan perubatan tempatan yang digunakan secara tradisi untuk merawat pelbagai jenis penyakit termasuk radang namun mekanisme aktiviti anti-radang oleh tumbuhan ini masih sukar difahami. Kajian ini dijalankan untuk mengkaji kesan terapeutik anti-radang oleh ekstrak etanol Gynura procumbens terhadap penghasilan NO dan ekspresi protein iNOS dalam makrofaj RAW 264.7 yang dirangsang oleh lipopolisakarida (LPS). Kebolehhidupan sel makrofaj RAW 264.7 oleh rawatan ekstrak etanol Gynura procumbens ditentukan dengan asai MTT. Reagen Griess digunakan untuk menentukan penghasilan NO diikuti rawatan ekstrak etanol Gynura procumbens atau dengan gabungan rangsangan LPS. Ekspresi protein iNOS dikaji dengan pemblotan western. Di bawah rawatan ekstrak etanol Gynura procumbens selama 24 jam menggunakan kepekatan 3.9 μg/mL hingga 500 μg/mL, makrofaj RAW 264.7 menunjukkan kebolehhidupan sel lebih daripada 90%. Perencatan paras penghasilan NO yang signifikan telah dikenal pasti dalam sel RAW 264.7 yang dirangsang oleh LPS bersama pra-rawatan 250 μg/mL ekstrak etanol Gynura procumbens (p<0.05) manakala semua kepekatan ekstrak etanol Gynura procumbens yang dipilih menunjukkan tiada perubahan yang signifikan dalam penghasilan NO tanpa perangsangan LPS. Pra-rawatan 250 μg/mL ekstrak etanol Gynura procumbens juga mendemonstrasikan perencatan ekspresi protein iNOS yang signifikan dalam sel RAW 264.7 yang dirangsang oleh LPS (p<0.05). Kesimpulannya, kajian ini menunjukkan bahawa ekstrak etanol Gynura procumbens mempamerkan potensi anti-radang melalui perencatan penghasilan NO dan ekspresi protein iNOS dalam makrofaj yang dirangsang oleh LPS, menunjukkan bahawa tumbuhan ini boleh dikaji secara lebih lanjut tentang kegunaannya yang bermanfaat dalam gangguan keradangan.
Kata kunci: Gynura procumbens; lipopolisakarida; makrofaj; nitrik oksida; radang; sintase nitrik oksida teraruh RUJUKAN
Akowuah,
G.A., Sadikun, A. & Mariam, A. 2002. Flavonoid identification and
hypoglycaemic studies of the butanol fraction from Gynura procumbens. Pharmaceutical
Biology 40(6): 405-410.
Aktan,
F. 2004. iNOS-mediated nitric oxide production and its regulation. Life
Sciences 75(6): 639-653.
Aldridge,
C., Razzak, A., Babcock, T.A., Helton, W.S. & Espat, N.J. 2008.
Lipopolysaccharide-stimulated RAW 264.7 macrophage inducible nitric oxide
synthase and nitric oxide production is decreased by an Omega-3 fatty acid lipid
emulsion. The Journal of Surgical Research 149(2): 296-302.
Alexander,
C. & Rietschel, E.T. 2001. Bacterial lipopolysaccharides and innate
immunity. Journal of Endotoxin Research 7(3): 167-202.
Anderson,
K.V. 2000. Toll signaling pathways in the innate immune response. Current
Opinion in Immunology 12(1): 13-19.
Bobryshev,
Y.V., Ivanova, E.A., Chistiakov, D.A., Nikiforov, N.G. & Orekhov, A.N.
2016. Macrophages and their role in atherosclerosis: Pathophysiology and
transcriptome analysis. BioMed Research International 2016: 9582430.
Byeon,
S.E., Lee, J., Kim, J.H., Yang, W.S., Kwak, Y.S., Kim, S.Y., Choung, E.S.,
Rhee, M.H. & Cho, J.Y. 2012. Molecular mechanism of macrophage activation
by red ginseng acidic polysaccharide from Korean red ginseng. Mediators of
Inflammation 2012: 732860.
Dianita,
R., Jantan, I., Amran, A.Z. & Jalil, J. 2015. Protective effects of Labisia
pumila var. alata on biochemical and histopathological alterations of
cardiac muscle cells in isoproterenol-induced myocardial infarction rats. Molecules (20): 4746-4763.
Fujiwara,
N. & Kobayashi, K. 2005. Macrophages in inflammation. Current Drug
Targets: Inflammation and Allergy 4(3): 281- 286.
Hämäläinen,
M., Nieminen, R., Vuorela, P., Heinonen, M. & Moilanen, E. 2007.
Anti-inflammatory effects of flavonoids: Genistein, kaempferol, quercetin, and
daidzein inhibit STAT-1 and NF-kappaB activations, whereas flavone,
isorhamnetin, naringenin, and pelargonidin inhibit only NF-kappaB activation
along with their inhibitory effect on iNOS expression and NO production in
activated macrophages. Mediators of Inflammation 2007: 45673.
Harikrishnan,
H., Jantan, I., Haque, M.A. & Kumolosasi, E. 2018. Anti-inflammatory
effects of Phyllanthus amarus Schum. & Thonn. through inhibition of
NF-κB, MAPK, and PI3K-Akt signaling pathways in LPS-induced human
macrophages. BMC Complementary and Alternative Medicine 18(1): 224.
Hwang,
S.J., Kim, Y.W., Park, Y., Lee, H.J. & Kim, K.W. 2014. Anti-inflammatory
effects of chlorogenic acid in lipopolysaccharide-stimulated RAW 264.7 cells. Inflammation
Research 63(1): 81-90.
Iskander,
M.N., Song, Y., Coupar, I.M. & Jiratchariyakul, W. 2002. Anti-inflammatory
screening of the medicinal plant Gynura procumbens. Plant Foods for
Human Nutrition 57(3-4): 233-244.
Jacobs,
A.T. & Ignarro, L.J. 2001. Lipopolysaccharide-induced expression
of interferon-β mediates the timing of inducible nitric-oxide
synthase induction in RAW 264.7 macrophages. The Journal of Biological
Chemistry 276(51): 47950-47957. Joo,
T., Sowndhararajan, K., Hong, S., Lee, J., Park, S.Y., Kim, S. & Jhoo, J.W.
2014. Inhibition of nitric oxide production in LPS-stimulated RAW 264.7 cells
by stem bark of Ulmus pumila L. Saudi Journal of Biological Sciences 21(5):
427- 435.
Kaewseejan,
N., Puangpronp, D. & Nakornriab, M. 2012. Evaluation of phytochemical
composition and antibacterial property of Gynura procumbens extract. Asian
Journal of Plant Sciences 11(2): 77-82.
Kamaruzaman,
K.A. & Noor, M.M. 2017. Gynura procumbens leaf improves blood
glucose level, restores fertility and libido of diabetic-induced male rats. Sains
Malaysiana 46(9): 1471-1477.
Kim,
H.J., Tsoyi, K., Heo, J.M., Kang, Y.J., Park, M.K., Lee, Y.S., Lee, J.H., Seo,
H.G., Yun-Choi, H.S. & Chang, K.C. 2007. Regulation of
lipopolysaccharide-induced inducible nitric-oxide synthase expression through
the nuclear factor-kappaB pathway and interferon-beta/tyrosine kinase 2/Janus
tyrosine kinase 2-signal transducer and activator of transcription-1 signaling
cascad. The Journal of Pharmacology and Experimental Therapeutics 320(2):
782-789.
Kim,
J., Lee, C.W., Kim, E.K., Lee, S.J., Park, N.H., Kim, H.S., Kim, H.K., Char,
K., Jang, Y.P. & Kime, J.W. 2011. Inhibition effect of Gynura procumbens extract on UV-B-induced matrix-metalloproteinase expression in human dermal
fibroblasts. Journal of Ethnopharmacology 137(1): 427-433.
Kim,
M.S. & Kim, S.H. 2011. Inhibitory effect of astragalin on expression
of lipopolysaccharide-induced inflammatory mediators through NF-κB
in macrophages. Archives of Pharmacal Research 34(12): 2101-2107.
Kopincová,
J., Púzserová, A. & Bernátová, I. 2012. L-NAME in the cardiovascular system
- Nitric oxide synthase activator? Pharmacological Reports 64(3):
511-520.
Korhonen,
R., Lahti, A., Kankaanranta, H. & Moilanen, E. 2005. Nitric oxide
production and signaling in inflammation. Current Drug Targets: Inflammation
and Allergy 4(4): 471- 479.
Kraaij, M.D., Vereyken,
E.J.F., Leenen, P.J.M., van den Bosch, T.P.P., Rezaee, F., Betjes, M.G.H.,
Baan, C.C. & Rowshani, A.T. 2014. Human monocytes
produce interferon-gamma upon stimulation with LPS. Cytokine 67(1):
7-12.
Li, F., Wang, W., Cao,
Y., Liang, D., Zhang, W., Zhang, Z., Jiang, H., Guo, M. & Zhang, N. 2014.
Inhibitory effects of astragalin on lipopolysaccharide-induced inflammatory
response in mouse mammary epithelial cells. Journal of Surgical Research 192(2):
573-581.
Li, X.J., Mu, Y.M., Li,
T.T., Yang, Y.L., Zhang, M.T., Li, Y.S., Zhang, W.K., He-Bin, T. & Shang,
H.C. 2015. Gynura procumbens reverses acute and chronic ethanol-induced
liver steatosis through MAPK/SREBP-1c-dependent and -independent pathways. Journal
of Agricultural and Food Chemistry 63(38): 8460-8471.
Li, Y.H., Yan, Z.Q.,
Brauner, A. & Tullus, K. 2002. Activation of macrophage nuclear
factor-κB and induct ion of inducible nitric oxide synthase by LPS. Respiratory
Research 3(1): 23.
Łuszczki, J.J.,
Jaskólska, A., Dworzański, W. & Zółkowska, D. 2011.
7-nitroindazole, but not NG-nitro-L-arginine, enhances the anticonvulsant
activity of pregabalin in the mouse maximal electroshock-induced seizure model. Pharmacological Reports: PR 63(1): 169-175.
Ma, Z., Piao, T., Wang,
Y. & Liu, J. 2015. Astragalin inhibits IL-1β-induced inflammatory
mediators production in human osteoarthritis chondrocyte by inhibiting
NF-κB and MAPK activation. International Immunopharmacology 25(1):
83-87.
Mustafizur Rahman,
A.F.M. & Al Asad, M.S. 2013. Chemical and biological investigations of the
leaves of Gynura procumbens. International Journal of Biosciences 3(4):
36-43.
Nicholas, C., Batra, S.,
Vargo, M.A., Voss, O.H., Gavrilin, M.A., Wewers, M.D., Guttridge, D.C.,
Grotewold, E. & Doseff, A.I. 2007. Apigenin blocks
lipopolysaccharide-induced lethality in vivo and proinflammatory cytokines
expression by inactivating NF-kappa B through the suppression of p65
phosphorylation. Journal of Immunology 179(10): 7121- 7127.
Rosidah, Y., Sadikun,
A.M. & Asmawi, M. 2008. Antioxidant potential of Gynura procumbens. Pharmaceutical
Biology 46(9): 616-625.
Salim, T., Sershen, C.L.
& May, E.E. 2016. Investigating the role of TNF-α and IFN-γ
activation on the dynamics of iNOS gene expression in LPS stimulated
macrophages. Plos ONE 11(6): e0153289.
Shao, D., Dunlop, W.D.,
Lui, E.M.K. & Bernards, M.A. 2008. Immunostimulatory and anti-inflammatory
polysaccharides from Tripterygium wilfordii: Comparison with organic
extracts. Pharmaceutical Biology 46(1-2): 8-15.
Shi, Q., Cao, J., Fang,
L., Zhao, H., Liu, Z., Ran, J., Zheng, X., Li X., Zhou, Y., Di, Ge., Zhang, H.,
Wang, L., Rana, Y. & Fua, J. 2014. Geniposide suppresses LPS-induced nitric
oxide, PGE2 and inflammatory cytokine by downregulating NF- κB, MAPK and
AP-1 signaling pathways in macrophages. International Immunopharmacology 20(2):
298-306.
Soufli, I., Toumi, R.,
Rafa, H. & Touil-Boukoffa, C. 2016. Overview of cytokines and nitric oxide
involvement in immuno-pathogenesis of inflammatory bowel diseases. World
Journal of Gastrointestinal Pharmacology and Therapeutics 7(3): 353-360.
Sunarwidhi, A.L.,
Sudarsono, S. & Nugroho, A.E. 2014. Hypoglycemic effect of combination of Azadirachta
indica A. Juss. and Gynura procumbens (Lour.) Merr. ethanolic
extracts standardized by rutin and quercetin in alloxan-induced hyperglycemic
rats. Advanced Pharmaceutical Bulletin 4(2): 613-618.
Tabas, I. &
Bornfeldt, K.E. 2016. Macrophage phenotype and function in different stages of
atherosclerosis. Circulation Research 118(4): 653-667.
Tripathi, P., Tripathi,
P., Kashyap, L. & Singh, V. 2007. The role of nitric oxide in inflammatory
reactions. FEMS Immunology & Medical Microbiology 51(3): 443-452.
Wong, S.K., Lee, M.S.J.,
Sudi, S., Hassan, R.M., Lee, P.C., Embi, N. & Sidek, H. 2015. Anti-malarial
and anti-inflammatory effects of Gynura procumbens are mediated by kaempferol via inhibition of glycogen synthase kinase-3β (GSK3β). Sains
Malaysiana 44(10): 1489-1500.
Wu, C.C., Lii, C.K.,
Liu, K.L., Chen, P.Y. & Hsieh, S.L. 2013. Antiinflammatory activity of
gynura bicolor (紅鳳菜 Hóng Fèng Cài) ether extract through inhibits nuclear factor Kappa B
activation. Journal of Traditional and Complementary Medicine 3(1):
48-52.
Yuandani, Jantan, I. & Husain, K. 2017. 4,5,4’-Trihydroxychalcone,
8,8’-(ethene-1,2-diyl)-dinaphtalene-1,4,5-triol and rutin from Gynura
segetum inhibit phagocytosis, lymphocyte proliferation, cytokine release
and nitric oxide production from phagocytic cells. BMC Complementary and
Alternative Medicine 17(1): 211.
*Pengarang untuk surat-menyurat; email: drnorsyahida@ukm.edu.my
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