Phytochemical, Toxicity, and Antimalarial Activity Methanol Extracts from Mangrove Coastal Beach Muara Badak, East Kalimantan

Authors

  • Usman Usman Mulawarman University
  • Muh. Amir Masruhim Mulawarman University
  • Agung Rahmadani Mulawarman University
  • Abdul Aziz Mulawarman University

DOI:

https://doi.org/10.25026/jtpc.v9i1.592

Keywords:

Toxicity, and Antimalarial,, Mangrove plant,, East Kalimantan

Abstract

The purpose of this study was to determine the content of secondary metabolites, toxicity to Artemia salina, and antimalarial activity of methanol extracts of Avicennia marina, Rhizophora mucronata, and Sonneratia caseolaris leaves. Extraction of the third mangrove leaf species was done by maceration using methanol solvent. Then phytochemical test to determine secondary metabolite compounds, then toxicity test against shrimp larvae A. salina with BSLT method, and Antimalarial activity test in vitro against Plasmodium falciparum strain3D7 (chloroquine sensitive) using Giemsa staining microscopic method. Secondary metabolite compounds contained in methanol extracts of the third species of mangrove leaves are alkaloids, flavonoids, saponins, phenolics compounds, steroids, triterpenoids and tannins. The toxicity of the methanol extract from mangrove leaves of A. Marina, R. mucronata and S. caseolaris against A. salina is strong category with a LC50 value of 256.132 ± 45.63;  48.165 ± 52.25; and 104.96 ± 9.99 ppm respectively. However, the methanol extract of R. mucronata leaves was most toxic to A. salina due to its lowest LC50 value. Mangrove species R. mucronata and S. caseolaris showed activity against P. falciparum 3D7 in a fairly good category with IC50 values < 50 ?g/ml, while the activity of mangrove species A. marina against P. falcifarum 3D7 included unfavorable category with IC50 value > 50 ?g/ml. The other tissue parts of the third mangrove plant species still need to be further explored regarding their bioactivity against A. salina and P. falciparum 3D7.

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Author Biographies

Usman Usman, Mulawarman University

Master Study Program of Chemistry Education, Faculty of Teacher Training and Education, Mulawarman University, Samarinda,East Kalimantan, Indonesia

Muh. Amir Masruhim, Mulawarman University

Master Study Program of Chemistry Education, Faculty of Teacher Training and Education, Mulawarman University, Samarinda,East Kalimantan, Indonesia

Abdul Aziz, Mulawarman University

Department of Chemistry, Faculty of Mathematics and Natural Sciences, Mulawarman University, Samarinda, East Kalimantan, Indonesia

References

[1] Aljaghthmi O., Heba H., Zeid I. A. Bioactive Compounds Extracted from Mangrove Plants (Avicennia marina, and Rhizophora mucronata): an Overview. Pathophysiology. (2018). DOI: https://doi.org/10.1016/j.pathophys.2018.09.002

[2] Bibi S. N., Fawzi M. M., Gokhan Z., Rajesh J., Nadeem N., Kannan R. R. R., Albuquerque R. D. D. G., and Pandian S. K. Ethnopharmacology, Phytochemistry, and Global Distribution of Mangroves A Comprehensive Review. Mar. Drugs, 17 (2018) 1-82. doi:10.3390/md17040231

[3] Zhao C., and Qin C. Z. Identifying large-area mangrove distribution based on remote sensing: A binary classification approach considering subclasses of non-mangroves. International Journal of Applied Earth Observation and Geoinformation. 108 (2022) 1–17. https://doi.org/10.1016/j.jag.2022.102750

[4] Joandani G. K., Pribadi R., and Suryono C. A. Study of the potential for developing ecotourism as an effort to conserve mangroves in Pasar Banggi Village, Rembang Regency. Journal of Marine Research. 8 (2019) 117-126. DOI: https://doi.org/10.14710/jmr.v8i1.24337.

[5] Tefarani R., Martuti N. K. T., and Ngabekti S. Mangrove Species Diversity and Zoning in the Mangunharjo Subdistrict, Tugu District, Semarang City. Life Science. 8 (2019) 41–53. https://doi.org/10.15294/lifesci.v8i1.29989

[6] Lopez D., Cherigo L., de Sedas A., Spadafora C., Martinez L. A. Evaluation of antiparasitic, anticancer, antimicrobial and hypoglycemic properties of organic extracts from Panamanian mangrove plants. Asian Pacific Journal of Tropical Medicine. 11 (2018) 32-39. doi: 10.4103/1995-7645.223531.

[7] Latief M., Nelson., Amanda H., Tarigan I. L., Aisyah A. Potential Tracking of Cytotoxic Activities of Mangrove Perepate (Sonneratia alba) Root Extract as an Anti-cancer Candidate. Pharmacology and Clinical Pharmacy Research. 5 (2020) 1-20. doi: 10.15416/pcpr.v4i3.26790.

[8] Lalitha P., Parthiban A., Sachithanandam V., Purvaja R., and Ramesh R. Antibacterial and Antioxidant Potential of GC-MS Analysis of Crude Ethyl Acetate Extract from The Tropical Mangrove Plant Avicennia officinalis L. South African Journal of Botany. 142 (2021) 149–155. https://doi.org/10.1016/j.sajb.2021.06.023.

[9] Muhaimin M., Yusnaidar., Syahri W., Latief M., Utami A., Bemis R., Amanda H. Screening and potential analysis of methanolic leaf extract of mangrove plants at east coast sumatera as repellent against aedes aegypti. J. Pharm. Sci. Res. 10 (2018) 2228-31

[10] Usman., Amir M., Erika F., Nurdin M., and Kuncoro H. Antidiabetic activity of leaf extract from three types of mangrove originating from sambera coastal region Indonesia. Res. J. Pharm. Technol. 12 (2019) 1707–1712. https://doi.org/10.5958/0974-360X.2019.00284.1

[11] Sachithanandam V., Lalitha P., Parthiban A., Mageswaran T., Manmadhan K., and Sridha R. A Review on Antidiabetic Properties of Indian Mangrove Plants with Reference to Island Ecosystem. Hindawi, Evidence-Based Complementary and Alternative Medicine. (2019) 1-21. https://doi.org/10.1155/2019/4305148.

[12] Eswaraiah G., Peele K. A., Krupanidhi S., Kumar R. B., and Venkateswarulu T. C. Identification of Bioactive in Leaf Extract of Avicennia alba by GC-MS Analysis and Evaluation of Its In-Vitro Anticancer Potential Against MCF7 and HeLaCell Lines. Journal of King Saud University-Science. 32( 2020) 842-847. https://doi.org/10.1016/j.jksus.2019.03.002.

[13] Sumartini., Ratrinia P. W., Hutabarat R. F. The effect of mangrove types and leave maturity on the mangrove leaves (Sonneratia alba) and (Rhizophora mucronata) tea powder. IOP Conference Series: Earth and Environmental Science. 967 (2022). https://doi.org/10.1088/1755-1315/967/1/012018

[14] Audah K. A., Ettin J., Darmadi J., Azizah N. N., Anisa A. S., Hermawan T. D. F., Tjampakasari C. R., Heryanto R., Ismail I. S., and Batubara I. Indonesian Mangrove Sonneratia caseolaris Leaves Ethanol Extract Is a Potential Super Antioxidant and Anti Methicillin-Resistant Staphylococcus aureus Drug. Molecules. 27 (2022) 1-18. https://doi.org/10.3390/molecules27238369.

[15] Dahibhate N. L., Saddhe A. A., and Kumar K. Mangrove plants as a source of bioactive compounds: A review. The Natural Products Journal. 9 (2019) 86–97. DOI:10.2174/2210315508666180910125328

[16] Dawane V., and Pathak B. Assessment of secondary metabolite profile and quantification method development for Lupeol and Caffeic acid by HPTLC in Avicennia marina pneumatophore roots. Biocatalysis and Agricultural Biotechnology. 26 (2020) 101573. https://doi.org/10.1016/j.bcab.2020.101573.

[17] Arbiastutie Y., Diba F., and Masriani M. Cytotoxicity Activity of Several Medicinal Plants Grow in Mangrove Forest against Human’s Cervical (HELA), Breast (T47D), and Colorectal (WiDr) Cancer Cell Lines. International Journal of Nutrition, Pharmacology, Neurological Diseases. 12 (2022) 46-50. Doi: 10.4103/ijnpnd.ijnpnd_57_21

[18] Kokpol U., Chittawong V., Mills H. D. Chemical constituents of the roots of Acanthus illicifolius. J Nat Prod. 49 (1984) 355-356. https://doi.org/10.1021/np50044a033

[19] Agoramoorthy G., Chandrasekaran M., Venkatesalu V., Hsu M. J. Antibacterial and antifungal activities of fatty acid methyl esters of the blind-your eye mangrove from India. Braz J Microbiol. 38 (2007) 739-742. DOI:10.1590/S1517-83822007000400028

[20] Hafid A. F., Puliansari N., Lestari N. S., Tumewu l., Rahman A., Widyawaruyanti A. Screening of Antimalarial Activity of Some Indonesian Plants Explored from Cangar Raya Forest, Batu- Malang, Jawa Timur. Indonesian Journal of Pharmacy and Pharmaceutical Sciences. 3 (2016) 1-11.

[21] Mitra S., Naskar N., Chaudhuri P. A Review on Potential Bioactive Phytochemicals for Novel Therapeutic Applications with Special Emphasis on Mangrove Species. Phytomedicine Plus. 1 (2021) 1-19. https://doi.org/10.1016/j.phyplu.2021.100107.

[22] Harahap I. S., Halimatussakdiah, Amna U. Phytochemical Screening of Lemon Citrus Leaf Extract (Citrus limon L.) from Langsa City, Aceh. Quimica: Journal of Science and Applied Chemistry. 3 (2021) 19-23. DOI:10.33059/jq.v3i1.3492.

[23] Akasia A. I., Putra I. D. N. N., and Putra I. N. G. Phytochemical Screening of Mangrove Leaf Extracts of Rhizopora mucronata and Rhizopora apiculata collected from Mangrove Area of Tuban Village, Bali. Journal of Marine Research and Technology. 4 (2021) 16-22. https://doi.org/10.24843/JMRT.2021.v04.i01.p03

[24] Khasanah N. W., Karyadi B., Sundaryono A. Phytochemical Test and Toxicity of Hydnophytum sp. Tuber Extract against Artemia salina Leach. PENDIPA Journal of Science Education. 4 (2020) 47-53. https://doi.org/10.33369/pendipa.4.1.47-53.

[25] Kurniawan H., and Rofiqa M. Toxicity Test of Ethanol Extract of Cat's Tail Leaf (Acalypha hispida Burm. F.) with Brine Shrimp Lethality Test (BSLT) Method. Journal Syifa Sciences and Clinical Research. 3 (2021) 52-62.

[26] Wardani A. K., Wahid A. R., Astuti Y. In Vitro Antimalarial Activity Test of Ethanol Extract of Ashitaba Plant Stem (Angelica keiskei [Miq.] Koidz). Indonesian Journal of Pharmaceutical Sciences. 18 (2020) 202-206. https://doi.org/10.35814/jifi.v18i2.815

[27] Muhaimin M., Latief M., Putri R. D., Chaerunisaa A. Y., Aditama A. Y., Pravitasari N. E., Siregar J. E. Antiplasmodial Activity of Methanolic Leaf Extract of Mangrove Plants against Plasmodium berghei. Pharmacogn J. 11 (2019) 929-935. DOI:10.5530/pj.2019.11.148

[28] Hardoko, Sasmito B. B., Puspitasari Y. E. Antidiabetic and antioxidant activities of tannin extract of Rhizophora mucronata leaves. Journal of Chemical and Pharmaceutical Research. 8 (2016) 143-148.

[29] Taniguchi K., Funasaki M., Kishida A., Sadhu S. K., Ahmed F., Ishibashi M., Ohsaki A. Two new coumarins and a new xanthone from the leaves of Rhizophora mucronate. Bioorganic & Medicinal Chemistry Letters. 28 (6) 1063-1066. https://doi.org/10.1016/j.bmcl.2018.02.022.

[30] Linh K. T. P., Quan N. H., Chien N. V., Trung N. Q., Thong V. H., Tuyen N. V., Thao N .P. Secondary Metabolites From The Stem Barks of Rhizophora mucronata L. Vietnam Journal of Science and Technology. 58 (2020) 653-664. doi:10.15625/2525-2518/58/6/14783

[31] Meyer B. N., Ferrigny N. R., Putnam J. E., Jacobsen L. B., Nicols D. E., and Mc Laughlin J. L. Brine Shrimp, A Covenient General Bioassay for Active Plant Contituent. Journal of Medical Plant Research. 45 (1982) 31-34. doi: 10.1055/s-2007-971236.

[32] Davis, Veronica, Maarisit W., Karauwan F., and Untu S. Toxicity Test of Ethanol Extract of Gossypium Hirsutum Cotton Leaf against Artemia Salina Shrimp Larvae with Brine Shrimp Lethality Test (BSLT) Method. Biofarmasetikal Tropis. 2 (2019) 71–77. https://doi.org/10.55724/jbiofartrop.v2i1.41.

[33] Gessler M. C., Nkunya M. H. H., Mwasumbi L. B., Heinrich M., and Tanner M. 1994. Screening Tanzanian Medicinal Plants for Antimalarial Activity. Acta Tropica. 56 (2019) 65–77. https://doi.org/10.1016/0001- 706X(94)90041-8.

[34] Juniharti A. E., Aulena D. N., Yantih N., Miftahurrohmah N., Kumala S. Extracellular Products of Endophytic Fungal Isolates C.1.1 and C.3.3 from Yellow Cempaka (Michelia champaca L.) Twigs as Antimicrobials. Indonesian Journal of Pharmaceutical Sciences. 19 (2021) 131-138. DOI: https://doi.org/10.35814/jifi.v19i1.985

[35] Gunawan H. D. Reduction of Saponin Compounds in Aloe Vera Gel by Boiling and Steaming. Journal of Food Technology. 9 (2018) 41-44. DOI: https://doi.org/10.35891/tp.v9i1.938

[36] Sari P. R., Kahtan M. I., Widiyantoro A. Effectiveness of Pandan Wangi Root Extract (Pandanus amaryllifolius Roxb.) as an Antimalarial Against Neutrophil Counts in the Blood of Plasmodium berghei-Infected Mice (Mus musculus). Journal of Cerebellum. 5 (2019) 1433-1441.

[37] Uzor P. F. Alkaloids from Plants with Antimalarial Activity: A Review of Recent Studies. Evidence Based Complementary and Alternative Medicine. 8749083 (2020) 1-17. https://doi.org/10.1155/2020/8749083

[38] Variani Y. A., Setyaningrum E., Handayani K., Nukmal N., Arifiyanto A. Bioactive Compound Analysis of Secondary Metabolite Extract of Serratia marcescens strain MBC1. Indonesia Journal of Chemical Analysis. 4 (2021) 64-71. DOI: 10.20885/ijca.vol4.iss2.art3

[39] Ahmed R., Moushumi S. J., Ahmed H., Ali M. Serum glucose and lipid profiles in rats following administration of Sonneratia caseolaris (L.) Engl. (Sonneratiaceae) leaf powder in diet. Adv Nat App Sci. 4 (2010) 171-173.

[40] Chen L., Zan Q., Shen J., Liao W. Litter dynamics and forest structure of the introduced Sonneratia caseolaris mangrove forest in Shenzhen, China. Estuarine, Coastal and Shelf Sci. 85 (2009) 241-246. DOI:10.1016/j.ecss.2009.08.007

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Published

2025-06-30

How to Cite

Usman, U., Masruhim, M. A., Rahmadani, A., & Aziz, A. (2025). Phytochemical, Toxicity, and Antimalarial Activity Methanol Extracts from Mangrove Coastal Beach Muara Badak, East Kalimantan. Journal of Tropical Pharmacy and Chemistry, 9(1), 24–32. https://doi.org/10.25026/jtpc.v9i1.592

Issue

Vol. 9 No. 1 (2025): J. Trop. Pharm. Chem.

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Articles

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