Studi In Silico Prediksi Sifat Fisikokimia dan Toksisitas Senyawa Tectoquinone Sebagai α-Glukosidase inhibitor

  • Ahmad Najib
Keywords: Tectoquinone; Syzigium oblanceolatum (C.B.Rob); Physicochemistry; Toxicity; pKCSM

Abstract

Tectoquinone is a chemical compound from natural ingredients in the Syzigium oblanceolatum (C.B.Rob) plant. Previous research has proven that Tectoquinone has antidiabetic activity by inhibiting the α-glucosidase enzyme. This research on physicochemistry and toxicity aims to determine the feasibility of tectoquinone if used as an oral drug in silico using the pKCSM Online Tool. The results obtained are that tectoquinone has fulfilled the physicochemical test with parameters based on the Lipinski Rule of Five. However, the results of the toxicity test showed that tectoquinone had ames toxicity, hepatotoxicity, and the LD50 value obtained was 468.92 g/kg.

References

[1] Hendry Z, Arisjulyanto D, Puspita NI. Malfungsi Seksualitas Wanita Usia Subur Yang Mengalami Diabetes Melitus. ARISHA J Kesehat Indones. 2023;01(01).
[2] Setyadji AES, Wibowo AP, Arnold IGN, Pratama RB, Masyhuda TA, Agusti YA, et al. Analisis Klaster Data Pasien Diabetes untuk Identifikasi Pola dan Karakteristik Pasien. J Teknol Dan Sist Inf Bisnis. 2023;5(3):172–82.
[3] Bingga IA. Kaitan Kualitas Tidur Dengan Diabetes Melitus Tipe 2. Medika Hutama. 2021;2(4):1047–52. Available from: https://jurnalmedikahutama.com/index.php/JMH/article/view/214
[4] Putri WNE, Astuti NMW. Potensi Ekstrak Daun Ubi Jalar (Ipomoea batatas L.) sebagai Suplemen Penurun Gula Darah. Pros Work dan Semin Nas Farm. 2023;1(1):244–59.
[5] Chien SC, Wu YC, Chen ZW, Yang WC. Naturally Occurring Anthraquinones: Chemistry and Therapeutic Potential in Autoimmune Diabetes. Chang CLT, editor. Evidence-Based Complement Altern Med [Internet]. 2015;2015:357357. Available from: https://doi.org/10.1155/2015/357357
[6] Najib A, Razak R, Mujtahid IF. Studi Penambatan Molekuler Senyawa Tectoquinone Terhadap Enzim α-Glukosidase. Jurnal Fitofarmaka Indonesia 2023;10(2):67–78.
[7] Rimta Barus B, Rahmi S. Aktivitas Ekstrak Daun Asam Jawa (Tamarandus indica L.) Terhadap Kadar Glukosa Darah Kelinci Jantan Yang Diinduksi Streptozotosin. JBIO J BIOSAINS ( J Biosci ). 2021;7(3):148–51.
[8] Siti Winda Munawwaroh, Sri Peni Fitrianingsih, Ratu Choesrina. Studi Literatur Aktivitas Antidiabetes Biji Mahoni (Swietenia mahagoni (L.) Jacq.). Bandung Conf Ser Pharm. 2022;2(2):314–20.
[9] Harahap BYH, Hasim H, Faridah DN. Antioxidant Activities and α-glucosidase Inhibition of Gayo Arabica Coffee Skin (Coffea arabica L). Curr Biochem. 2021;8(1):37–50.
[10] Sinurat MR, Rahmayanti Y, Rizarullah* R. Uji Aktivitas Antidiabetes Senyawa Baru Daun Yakon (Smallanthus sonchifolius) sebagai Inhibitor Enzim DPP-4: Studi in Silico. J IPA Pembelajaran IPA. 2021;5(2):138–50.
[11] Kesuma D, Siswandono S, Purwanto BT, Hardjono S. Uji in silico Aktivitas Sitotoksik dan Toksisitas Senyawa Turunan N-(Benzoil)-N’- feniltiourea Sebagai Calon Obat Antikanker. JPSCR J Pharm Sci Clin Res. 2018;3(1):1.
[12] Naufa F, Mutiah R, Yen Y, Indrawijaya A. Studi in Silico Potensi Senyawa Katekin Teh Hijau (Camellia sinensis) sebagai Antivirus SARS CoV-2 terhadap Spike Glycoprotein (6LZG) dan Main Protease (5R7Y). J Food Pharm Sci [Internet]. 2022;10(1):584–96. Available from: www.journal.ugm.ac.id/v3/JFPA
[13] Lipinski CA, Lombardo F, Dominy BW, Feeney PJ. Experimental and computational approaches to estimate solubility and permeability in drug discovery and development settings. Adv Drug Deliv Rev. 1997;23(1–3):3–25.
[14] Rachmania RA, Hariyanti H, Zikriah R, Sultan A. Studi In Silico Senyawa Alkaloid Herba Bakung Putih (Crinum Asiaticum L.) pada Penghambatan Enzim Siklooksigenase (COX). J Kim Val. 2018;4(2):124–36.
[15] Novianty R. Analisis Farmakokinetik, Toksisitas, dan Drug-Likeness Lima Senyawa Aktif Biji Pinang Sebagai Antidepresan Secara In Silico. Jurnal inovasi Pendidikan dan Sains 2023;4(1):61–6.
Published
2024-09-25
Section
Articles