Studi in Silico Senyawa Aktif Rimpang Jahe (Zingiberis Officinalis Rhizoma) sebagai Antikanker Payudara terhadap Progesterone Receptor

Authors

  • Shafa Shaomi Maharani Universitas Padjadjaran
  • Ratnadani Amalia Safitri Universitas Padjadjaran
  • Khalisa Wahidani Aufhanggi Universitas Padjadjaran
  • Amira Hasna Azis Universitas Padjadjaran
  • Sasha Nurhalisa Universitas Padjadjaran

DOI:

https://doi.org/10.57214/jka.v9i1.840

Keywords:

Anticancer, Ginger, Molecular Docking, Progesterone Receptor

Abstract

Breast cancer is one of the highest causes of death worldwide. Breast cancer is a malignant tumor that attacks the breast tissue which consists of the mammary glands (milk-making glands), glandular ducts (milk ducts), and breast supporting tissues. This study aims to look at the interaction of ginger compounds against progesterone receptors as anticancer of the breast. This research method includes Lipinski prediction, admetox prediction, pharmacophore screening, and molecular docking. Lipinski's prediction results show that of the 15 compounds tested, only 13 compounds were obtained that fulfilled the Lipinski rule. Admethox prediction results showed that the compounds with the best HIA, CaCO2, PPB, and BBB values were Zingiberene, beta-carotene, and Zingiberenol. The pharmacophore screening results showed model 8 as the best model with an AUC value of 100%, namely 0.71. From the results of molecular docking, it was found that Zingiberenol compound is the best drug candidate with the lowest binding energy value and KI value, namely -8.38 kcal/mol and 4.36 uM with van der waals bonds that occur in the Phe778 amino acid residue.

References

Amalia, R., Marwansyah, M., & Ningsih, E. S. P. (2021). Literature review pengaruh ekstrak jahe terhadap mual muntah pasien kanker paska kemoterapi. Jurnal Citra Keperawatan, 9(2), 61–72. http://www.ejurnal-citrakeperawatan.com/index.php/JCK/article/view/255

American Cancer Society. (2017). Breast cancer treatment guideline. American Cancer Society.

Azis, F. K., Pratiwi, D. Y., & Sahar, N. N. (2016). Hasil in silico senyawa Z12501572, Z00321025, SCB5631028 dan SCB13970547 dibandingkan turunan zerumbone terhadap human liver glycogen phosphorylase (1l5Q) sebagai antidiabetes. Jurnal Kimia VALENSI: Jurnal Penelitian dan Pengembangan, 2(2), 120–124.

Dona, R., Frimayanti, N., Ikhtiarudin, I., Iskandar, B., Maulana, F., & Silalahi, N. T. (2019). Studi in silico, sintesis, dan uji sitotoksik senyawa p-metoksi kalkon terhadap sel kanker payudara MCF-7. Jurnal Sains Farmasi & Klinis, 6(3), 243–249.

Elekofehinti, O. O., Ayodeji, F. O., Adetoyi, I. R., Taiwo, F. A., Oluwatuyi, A. O., Aigbokheo, I. F., & Akinjiyan, M. O. (2025). Insight into estrogen receptor inhibitory activity of Zingiber officinale-derived compounds: In silico studies. Letters in Applied NanoBioScience, 14(1). https://doi.org/10.33263/LIANBS141.049

Gondokesumo, M. E., & Rasyak, M. R. (2024). In-silico prediction of anti-breast cancer activity of ginger (Zingiber officinale) using machine learning techniques. Breast Disease, 43(1), 99–110. https://doi.org/10.3233/BD-249002

Hartanti, I. R., Putri, A. A., Auliya, N. N., Triadenda, A. L., Laelasari, E., Suhandi, C., & Muchtaridi, M. (2022). Molecular docking senyawa xanton, benzofenon, dan triterpenoid sebagai antidiabetes dari ekstrak tumbuhan Garcinia cowa. Jurnal Kimia, 16(1), 72–83.

Kementerian Kesehatan Republik Indonesia. (2022). Kanker payudara paling banyak di Indonesia, Kemenkes targetkan pemerataan layanan kesehatan. https://www.kemkes.go.id/article/view/22020400002/kanker-payudaya-paling-banyak-di-indonesia-kemenkes-targetkan-pemerataan-layanan-kesehatan.html

Lipinski, C. A. (2016). Rule of five in 2015 and beyond: Target and ligand structural limitations, ligand chemistry structure and drug discovery project decisions. Advanced Drug Delivery Reviews, 101, 34–41.

Lukiyono, Y. T., Nidianti, E., & Zulfikar, S. S. (2023). Pengaruh aromaterapi jahe (Zingiber officinale) terhadap mual muntah pasien kanker pasca kemoterapi. Journal of Pharmacy Science and Technology, 4(1).

Miyada Nur Ahnafani, N., Nasiroh, N., Aulia, N., Lestrari, N. L. M., & Ngongo, M. (2022). Jahe (Zingiber officinale): Tinjauan fitokimia, farmakologi dan toksikologi. Pharmaceutical Journal, 74(1), 98–101. https://doi.org/10.36684/74-1-2022-98-101

Pannindriya, P., Safithri, M., & Tarman, K. (2021). Analisis in silico senyawa aktif Spirulina platensis sebagai inhibitor tirosinase. Jurnal Pengolahan Hasil Perikanan Indonesia, 24(1), 70–77.

Sari, D., & Nasuha, A. (2021). Kandungan zat gizi, fitokimia, dan aktivitas farmakologis pada jahe (Zingiber officinale Rosc.): Review. Journal of Biological Science, 1(2), 11–18.

Suparman, E., & Suparman, E. (2014). Peran estrogen dan progesteron terhadap kanker payudara. Jurnal Biomedik: JBM, 6(3).

Tahir, M., Maryam, S., & Farmasi, F. (2024). Studi in silico senyawa aktif dari jahe (Zingiber officinale) dan kersen (Muntingia calabura L.) sebagai inhibitor main protease (Mpro) dari SARS-CoV-2. As-Syifaa Jurnal Farmasi, 16(1), 35–44.

Zhang, H., Hao, C., & Han, B. (2016). Prediction of human oral pharmacokinetics of small molecules using a mechanistic absorption model. Drug Metabolism and Disposition, 44(10), 1686–1695.

Downloads

Published

2025-05-19

How to Cite

Shafa Shaomi Maharani, Ratnadani Amalia Safitri, Khalisa Wahidani Aufhanggi, Amira Hasna Azis, & Sasha Nurhalisa. (2025). Studi in Silico Senyawa Aktif Rimpang Jahe (Zingiberis Officinalis Rhizoma) sebagai Antikanker Payudara terhadap Progesterone Receptor. Jurnal Kesehatan Amanah, 9(1), 228–246. https://doi.org/10.57214/jka.v9i1.840

Issue

Vol. 9 No. 1 (2025): Jurnal Kesehatan Amanah

Section

Articles

License

Copyright (c) 2025 Jurnal Kesehatan Amanah

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.