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Sains Malaysiana 51(3)(2022): 757-774
http://doi.org/10.17576/jsm-2022-5103-10
Phytochemical Constituents and Pharmacological Activities of Picrasma javanica: Quassinoids Interest
(Kandungan Fitokimia dan Aktiviti Farmakologi Picrasma javanica: Kepentingan Quasinoid)
MUHAMMAD TAHER1,*,
NAJAH FATEHAH MOHD RAZALI1, DENY SUSANTI2, MD. ATIAR RAHMAN3, MUH ADE ARTASASTA4 & ZAINUL AMIRUDDIN ZAKARIA5
1Department of Pharmaceutical Technology, Faculty of
Pharmacy, International Islamic University Malaysia, Jalan Sultan Ahmad Shah,
25200 Kuantan, Pahang Darul Makmur,
Malaysia
Diserahkan: 9 Julai 2020/Diterima:
12 Ogos 2021
Abstract
Picrasma javanica Blume is a plant belonging to
Simaroubaceae. It is known for its secondary metabolites, namely quassinoids, offering various pharmacological properties
including antitumor, antimalarial, and antiviral. The plant is traditionally
used as a source medicine for different diseases in Myanmar, Thailand, and
Indonesia. Despite the extensive studies on P. javanica, there is no concise and
conclusive information regarding the phytochemical and phytochemistry of the
plant has been reported. Thus, we aimed to discern the phytochemical
constituents and pharmacological activities of P. javanica. The phytochemical constituents
and pharmacological benefits of P. javanica were reviewed and supported from previous in vivo and in vitro studies. The literature used in this review were retrieved
from electronic database such as Scopus, Semanticscholar, Sciendirect, Google scholar, Researchgate, Pubmed, and websites. P. javanica possesses several phytochemical
constituents, such as quassinoids, alkaloids, and
triterpenoids. The compounds of the plant have been isolated and studied for
their pharmacological activities, encompassing antimalarial, antiproliferative,
antiviral, antimicrobial, and membrane-stabilizing activities. It was found
that the pharmacological activities in the plant were attributable to the key
ingredients of quassinoids and alkaloids present.
However, further extensive studies must be carried out to explore more
potential benefits that the plant could offer.
Keywords: Pharmacological activities; phytochemical constituents; Picrasma javanica; quassionoids;
Simaroubaceae
Abstrak
Picrasma javanica Blume ialah
sejenis tumbuhan yang tergolong dalam Simaroubaceae. Ia terkenal dengan
metabolit sekundernya, iaitu quasinoid yang menawarkan pelbagai sifat
farmakologi termasuk antitumor, antimalaria dan antivirus. Tumbuhan ini secara
tradisinya digunakan sebagai punca ubat untuk pelbagai penyakit di Myanmar,
Thailand dan Indonesia. Walaupun terdapat kajian meluas mengenai P. javanica, namun maklumat
ringkas dan konklusif mengenai fitokimia dan fitokimia tumbuhan telah
dilaporkan. Oleh itu, kami berhasrat untuk membezakan konstituen fitokimia dan
aktiviti farmakologi P. javanica.
Konstituen fitokimia dan faedah farmakologi P.
javanica telah disemak dan disokong daripada kajian in vivo dan in vitro sebelum ini. Kepustakaan yang digunakan dalam ulasan ini diperoleh daripada
pangkalan data elektronik Scopus, Semanticscholar, Sciendirect, Google scholar,
Researchgate, Pubmed dan laman sesawang. P.
javanica mempunyai beberapa konstituen fitokimia, seperti quasinoid,
alkaloid dan triterpenoid. Sebatian tumbuhan telah diasing dan dikaji untuk
aktiviti farmakologinya, merangkumi aktiviti antimalaria, antiproliferatif,
antivirus, antimikrob dan penstabilan membran. Didapati bahawa aktiviti
farmakologi dalam tumbuhan adalah disebabkan oleh bahan-bahan utama quassinoid
dan alkaloid yang ada. Walau bagaimanapun, kajian lanjut mesti dijalankan untuk
meneroka lebih banyak potensi faedah yang boleh ditawarkan oleh tumbuhan ini.
Kata kunci: Aktiviti farmakologi;
juzuk fitokimia; Picrasma javanica;
quasionoid; Simaroubaceae
RUJUKAN
Alves, I.A.B.S., Miranda, H.M., Soares, L.A.L.
& Randau, K.P. 2014. Simaroubaceae family: Botany, chemical composition and
biological activities. Brazilian Journal
of Pharmacognosy 24: 481-501.
Apers, S., Cimanga, K., Vanden Berghe, D.,
Van Meenen, E., Otshudi Longanga, A., Foriers, A., Vlietinck, A. & Pieters, L. 2002. Antiviral activity of simalikalactone D, a quassinoid from Quassia africana. Planta Med. 68: 20-24.
Bora,
U., Sahu, A., Saikia, A.P., Ryakala, V.K. & Goswami, P. 2007. Medicinal
plants used by the people of Northeast India for curing malaria. Phytotherapy Research 21: 800-804.
Curcino Vieira, I.J. & Braz-Felho, R. 2006. Quassinoids:
Structural diversity, biological activity and
synthetic studies. Studies in Natural Product Chemistry 33: 433-492.
Ekong, R.M., Kirby, G.C.,
Patel, G., David Phillipson, J. & Warhurst, D.C. 1990. Comparison of the in vitro activities of quassinoids with activity against Plasmodium falciparum, anisomycin and
some other inhibitors of eukaryotic protein synthesis. Biochem. Pharmacol. 40: 297-301.
Gazoni, V.F., Balogun, S.O., Arunacham, K., Oliveira, D.M., Filho, V.C., Lima, S.R., Colodel, E.M., Soares, I.M., Ascêncio,
S.D. & de Oliveira Martins,
D.T. 2018. Assessment of toxicity and differential antimicrobial activity of
methanol extract of rhizome of Simaba ferruginea A. St.-Hil. and
its isolate canthin-6-one. J. Ethnopharmacol. 223: 122-134.
Globinmed - Picrasma javanica Blume. http://www.globinmed.com/index.php?option=com_content&view=article&id=105500:picrasma-javanica-blume-r&catid=286&Itemid=357. Assessed on 14 November 2019.
Khan,
M.R., Kihara, M. & Omoloso,
A.D. 2001. Antibacterial activity of Picrasma javanica. Fitoterapia 72:
406-408.
Kirby,
G.C., O’Neill, M.J., Phillipson, J.D. & Warhurst, D.C. 1989. In vitro studies on the mode of action
of quassinoids with activity against
chloroquine-resistant Plasmodium
falciparum. Biochemical Pharmacology 38: 4367-4374.
Koike,
K. & Ohmoto, T. 1992. New quassinoid glucosides, javanicinosides I, J, K, and L, from Picrasma javanica. Journal Natural Products 55: 482-486.
Koike,
K., Ohmoto, T., Uchida, A. & Oonishi, I. 1994. Javacarboline, a new β-carboline alkaloid from the
stem of Picrasma javanicain
Java. Heterocycles 38: 1413-1420.
Li,
G., Bukrinsky, M. & Zhao, R. 2009. HIV-1 viral protein R (VPR) and its interactions
with host cell. Curr. HIV Res. 7: 178-183.
Nawawi, A., Nakamura, N.,
Hattori, M., Kurokawa, M. & Shiraki,
K. 1999. Inhibitory effects of Indonesian medicinal plants on the infection of
herpes simplex virus type 1. Phytother. Res. 13: 37-41.
O’Neill,
M.J., Bray, D.H., Boardman, P., Phillipson, J.D., Warhurst, D.C., Peters, W.
& Suffness, M. 1986. Plants and sources of antimalarial
drugs: In vitro antimalarial
activities of some quassinoids. Antimicrob. Agents Chemotherapy 30: 101-104.
Ohmoto, T., Koike, K., Mitsunaga, K., Fukuda, H. & Kagei,
K. 1989. Studies on the constituents of Indonesian Picrasma javanica. III. Structures of new quassinoids, javanicins A, C and
D. Chem. Pharm. Bull. 37: 2991-2994.
Omale, J. & Okafor, P.N. 2008.
Comparative antioxidant capacity, membrane stabilization, polyphenol
composition and cytotoxicity of the leaf and stem of Cissus multistriata. African Journal of Biotechnology 7: 3129-3133.
Paptiwi, Harapini,
M. & Chairul. 2007. Uji aktivitas antimalaria secara in-vivo ekstrak Ki Pahit (Picrasma javanica)
pada mencit yang diinfeksi Plasmodium berghei. Biodiversitas 8: 111-113.
Pavanand, K., Yongvanitchit, K., Webster, H.K., Dechatiwongse,
T., Nutakul, W., Jewvachdamrongkul,
Y. & Bansiddhi, J. 1988. In vitro antimalarial activity of a Thai medicinal plant Picrasma javanica Bl. Phytotherapy Research 2: 33-36.
Poljuha, D., Sladonja, B., Šola, I., Dudaš, S., Bilić, J., Rusak, G., Motlhatlego, K.E.
& Eloff, J.N. 2017. Phenolic composition of leaf extracts of Ailanthus altissima (Simaroubaceae) with antibacterial and antifungal activity equivalent to
standard antibiotics. Natural Product
Communications 12: 1609-1612.
Polonsky,
J. 1973. Quassinoidbitter
principles. In Fortschritte Der Chemie Organischer Naturstoffe 47: 101-150.
Rahman,
A., Kim, E.L. & Kang, S.C. 2009. Antibacterial and antioxidant properties
of Ailanthus altissima swingle leave extract to reduce foodborne
pathogens and spoiling bacteria. Journal
of Food Safety 29: 499-510.
Rajalakshmi,
R.R. & Harindran, J. 2013. Anti-inflammatory
activity of Samadera indicaleaves by membrane stabilization. IJPSR 4: 721-723.
Rashed, K., Ataa, S. & Ahamed, M. 2013. Antiviral activity
and phytochemical analysis of Alianthus excelsa Roxb bark. Journal of Forest Products & Industries 2: 30-33.
Saiin, C. & Sirithunyalug, B. 2017.
Review of the chemical structures and antimalarial activities of indole
alkaloids isolated from Picrasma javanicaBl. Adv. Med. Plant Res. 5: 29-36.
Saiin, C., Rattanajak, R., Kamchonwongpaisan,
S., Ingkaninan, K., Sukontason,
K., Baramee, A. & Sirithunyalug,
B. 2003. Isolation and in vitro antimalarial activity of hexane extract from Thai Picrasma javanica B1 stembark. Southeast Asian J. Trop. Med. Public Health 34(Suppl 2): 51-55.
Sharmin, T., Islam, F., Sikder, M.A.A,
Kabir, S., Haque, M.R. & Rashid, M.A. 2013. Membrane Stabilizing and
Preliminary Hypoglycemic Activities of Picrasma javanica. Bangladesh Pharm. J. 16: 89-92.
Sharmin, T., Islam, F., Kaisar, M.A., Uddin, M.G. & Rashid, M.A. 2012.
Antioxidant, thrombolytic and cytotoxic activities of Picrasma javanica. Dhaka University Journal of Pharmaceutical Sciences 11: 71-74.
Stewart,
S.A., Poon, B., Song, J.Y. & Chen, I.S.Y. 2000. Human immunodeficiency virus type 1 Vprinduces apoptosis
through caspase activation. Journal of Virology 74: 3105-3111.
Takasu, K., Shimogama, T., Saiin, C., Kim,
H.S., Wataya, Y., Brun, R. & Ihara, M. 2005. Synthesis
and evaluation of β-carbolinium cations as new
antimalarial agents based on π-delocalized lipophilic cation (DLC)
hypothesis. Chemical & Pharmaceutical
Bulletin 53: 653-661.
Viswanad, V., Aleykutty, N.A., Jayakar, B.,
Zacharia, S.M. & Thomas, L. 2012. Development and evaluation of
antimicrobial herbal formulations containing the methanolic extract of Samadera indica for
skin diseases. J. Adv. Pharm. Tech. Res. 3(2): 106-111. DOI:
10.4103/2231-4040.97285.
WHO.
2018. https://www.who.int/news-room/fact-sheets/detail/malaria. Assessed on 15 November 2019.
Win,
N.N., Ito, T., Ismail, Kodama, T., Win, Y.Y., Tanaka, M., Okamoto, Y., Imagawa, H., Ngwe, H., Asakawa, Y., Abe, K. & Morita,
H. 2016a. Picrajavanicins H-M, new quassinoids from Picrasma javanicacollected in Myanmar and their
antiproliferative activities. Tetrahedron 72: 746-752.
Win,
N.N., Ito, T., Win, Y.Y., Ngwe, H., Kodama, T., Abe, I. & Morita, H. 2016b. Quassinoids: Viral protein R inhibitors from Picrasma javanica bark
collected in Myanmar for HIV infection. Bioorganic
& Medical Chemistry Letters 26: 4620-4624.
Win, N.N.,
Ito, T., Ismail, Kodama, T., Win, Y.Y., Tanaka, M., Ngwe, H., Asakawa, Y., Abe,
I. & Morita, H. 2015. Picrajavanicins A-G, Quassinoids from Picrasma javanicacollected in Myanmar. Journal of Natural Products 78: 3024-3030.
Yoganandam, G.P., Ilango, K. & Sucharita, D.
2010. Evaluation of anti-inflammatory and membrane stabilizing properties of
various extracts of Punica granatum L. (Lythraceae). International Journal of PharmTech Research 2:
1260-1263.
Zuhrotun, A., Suganda, A.G., Wirasutisna, K.R.
& Wibowo, M.S. 2015. Anticancer screening of
selected Apocynaceae, Simaroubaceae and Magnoliaceae of Indonesian plants using mechanism-based
yeast bioassay. International Journal of
Pharmaceutical Sciences Review and Research 35: 90-94.
*Pengarang untuk surat-menyurat; email: mtaher@iium.edu.my
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