Your search keyword '"Muhammad Hermawan Widyananda"' showing total 28 results

1. Antimalarial Potential of Phytochemical Compounds from Garcinia atroviridis Griff ex. T. Anders Targeting Multiple Proteins of Plasmodium falciparum 3D7: An In Silico Approach

Author

Nur Sofiatul Aini, Arif Nur Muhammad Ansori, Mochammad Aqilah Herdiansyah, Viol Dhea Kharisma, Muhammad Hermawan Widyananda, Ahmad Affan Ali Murtadlo, Dora Dayu Rahma Turista, Teguh Hari Sucipto, Sukma Sahadewa, Fara Disa Durry, Vikash Jakhmola, Maksim Rebezov, Valery P. Kartashev, Kadek Rachmawati, Putu Angga Wiradana, T. Karpagam, and Hery Purnobasuki

Subjects

bioinformatics, drug discovery, malaria, medicine, molecular docking, Medicine

Abstract

Background: Plasmodium falciparum is a malaria-causing unicellular parasite with strain 3D7 (Pf 3D7) being the most lethal. Currently, antimalarial resistance has been reported which necessitates the development of novel antimalarial drugs to combat the spread of malaria. Garcinia atroviridis Griff. ex T. Anders contains phytochemical compounds that are useful for various activities, including targeting Pf 3D7 proteins. This study explored novel antimalarial drugs from G. atroviridis against several target proteins of Pf 3D7 in silico . Methods: Phytocompounds from G. atroviridis were selected as ligands. After retrieval from the Protein Data Bank, the protein sequence was screened using BLASTp NCBI. Molecular docking analysis was performed on PyRx to compute binding affinity and identify the chemical interactions involved. The stability of the ligand-protein complex was evaluated using dynamic molecular approaches. Results: Our findings showed that quercetin has a high binding affinity with apicoplast DNA polymerase (−8.3 kcal/mol), glutamyl-tRNA synthetase (−7.5 kcal/mol), and plasmepsin X (−7.8 kcal/mol). Kaempferol had a high binding affinity for the cytochrome c2 domain-swapped dimer (−8.4 kcal/mol). Conclusion: Collectively, quercetin and kaempferol are potential antimalarial candidates which warrant further investigation using in vitro and in vivo designs.

Published

2024

2. Revealing the anti-inflammatory activity of Euphorbia hirta extract: transcriptomic and nitric oxide production analysis in LPS-Induced RAW 264.7 cells

Author

Dinia Rizqi Dwijayanti, Muhammad Hermawan Widyananda, Feri Eko Hermanto, Aris Soewondo, Mufidah Afiyanti, and Nashi Widodo

Subjects

Anti-inflammatory, Euphorbia hirta, nitric oxide, RAW 264.7, Agriculture (General), S1-972, Immunologic diseases. Allergy, RC581-607

Abstract

ABSTRACTExcessive production of nitric oxide (NO) dan pro-inflammatory cytokines can lead to tissue damage and chronic inflammation. Euphorbia hirta presents an interesting opportunity for plant-derived anti-inflammatory agents as it contains a range of compounds which have demonstrated anti-inflammatory effects. This study investigates the anti-inflammatory properties of E. hirta extract on gene expression and NO production in LPS-treated RAW 264.7 cells. The results demonstrate that E. hirta extracts effectively suppress NO production in RAW 264.7 cells. Furthermore, the extract inhibits iNOS protein expression and reduces the expression of pro-inflammatory cytokines TNF-α and IL−12. RNA sequencing revealed significant alterations in gene expression, including 167 upregulated and 56 downregulated genes-related inflammation pathways. The study concludes that E. hirta extract possesses anti-inflammatory activity by modulating gene expression and inhibiting NO production in LPS-treated RAW 264.7 cells. The extract influences genes associated with inflammation signalling pathways, including cytokine signalling, NF-κB, iNOS and JAK-STAT pathways.

Published

2024

3. Prediction of Aflatoxin-B1 (AFB1) Molecular Mechanism Network and Interaction to Oncoproteins Growth Factor in Hepatocellular Carcinoma

Author

Yulanda Antonius, Viol Dhea Kharisma, Muhammad Hermawan Widyananda, Arif Nur Muhammad Ansori, Joko Pebrianto Trinugroho, Md. Emdad Ullah, Sin War Naw, Vikash Jakhmola, and Mariana Wahjudi

Subjects

cancer, kinase protein, protein interaction, protein pathway, toxin, Microbiology, QR1-502

Abstract

Aflatoxin-B1 (AFB1) is a common contaminant for staple foods during the storage process. Chronic exposure to AFB1 is widely known to induce the development of hepatocellular carcinoma (HCC). However, there is a lack of understanding of AFBi role in HCC mechanism. This research aims to identify protein(s) in HCC that might interact with AFB1 and to predict the pathway effected by AFB1. Analyses were performed using bioinformatics tools. SMILES notation of AFB1 was submitted into Swiss Target Prediction. Interaction among predicted proteins were analyzed by using STRING. The 3D structure of target protein was constructed by homology modeling. Reverse docking was performed, and the result was ranked based on binding affinity score. Furthermore, protein interaction network was constructed and analyzed by using Cytoscape. Results showed that three protein groups were predicted as target of AFB1, such as kinases, phosphatases, and G protein-coupled receptor with probability of 46.7%, 20%, and 6.7%, respectively. Seven proteins of kinases were strongly related to HCC, including RAF1, MAPK1, MAPK3, AKT1, EGFR, GSK3B, and mTOR. Reverse docking considered the AKT1-AFB1 as the most potential complex with the lowest affinity score -10.2 kcal.mol-1. It has hydrophobic bonds in Trp80, Val270, Tyr272, Asp292, Thr211, Leu210, Leu264, and Lys268 residues, whereas hydrogen bond in Ser205 residues. Moreover, further analysis demonstrated that interaction of AKT1-AFB1 is related to the metastasis pathway in HCC mechanism.

Published

2022

4. Macroalgae Bioactive Compounds for the Potential Antiviral of SARS-CoV-2: An In Silico Study

Author

Hasriaton Padmi, Viol Dhea Kharisma, Arif Nur Muhammad Ansori, Mada Triandala Sibero, Muhammad Hermawan Widyananda, Md. Emdad Ullah, Olga Gumenyuk, Svetlana Chylichcova, Natalia Bratishko, Eka Sunarwidhi Prasedya, Teguh Hari Sucipto, and Rahadian Zainul

Subjects

antiviral, covid-19, macroalgae, medicine, sars-cov-2, Microbiology, QR1-502

Abstract

Coronavirus disease (COVID-19), which was due to novel coronavirus was detected in December 2019 in Wuhan, China for the first time and spread rapidly became a global pandemic. This study aimed to predict the potential of macroalgae compounds as SARS-CoV-2 antiviral by inhibiting of ACE2 receptor through in silico approach. Twenty-seven macroalgae compounds were obtained from PubChem (NCBI, USA), while target protein ACE2 receptor was collected from Protein Data Bank (PDB). Then the initial screening study drug-likeness conducted by Lipinski rule of five web server and prediction of bioactive probability carried out by PASS (Prediction of activity spectra for biologically active substances) Online web server. After those compounds were approved by Lipinski’s rule of five and PASS online prediction web server, the blind docking simulation was performed using PyRx 0.8 software to show binding energy value. Molecular interaction analysis was done using BIOVIA Discovery Studio 2016 v16.1.0 and PyMOL v2.4.1 software. There are six macroalgae compounds approved by Lipinski’s rule of five and PASS Online Analysis. The result is that macroalgae compound siphonaxanthin among 27 macroalgae compound showed strong binding energy to bind ACE2 receptor with -8.8 kcal/mol. This study also used the SARS-CoV-2 drugs as positive control: remdesivir, molnupiravir, baricitinib, lopinavir, oseltamivir, and favipiravir. The result shows that siphonaxanthin has lowest binding energy than the common SARS-CoV-2 drug. Macroalgae compounds are predicted to have potential as SARS-CoV-2 antiviral. Thus, extension studies need to investigate by in vitro and in vivo analysis for confirmation the siphonaxanthin’s inhibitory activity in combat SARS-CoV-2.

Published

2022

5. Herbal combination from Moringa oleifera Lam. and Curcuma longa L. as SARS-CoV-2 antiviral via dual inhibitor pathway: A viroinformatics approach.

Author

Viol Dhea Kharisma, Aggy Agatha, Arif Nur Muhammad Ansori, Muhammad Hermawan Widyananda, Wahyu Choirur Rizky, Tim Godefridus Antonius Ding, Marina Derkho, Irina Lykasova, Yulanda Antonius, Imam Rosadi, and Rahadian Zainul

Subjects

covid-19, curcuma longa, moringa oleifera, mpro, nfkb1, Therapeutics. Pharmacology, RM1-950, Pharmacy and materia medica, RS1-441

Abstract

Context: The COVID-19 outbreak is caused by the transmission and infection of SARS-CoV-2 at the end of 2019. It has led many countries to implement lockdown policies to prevent the viral spreading. Problems arise in a COVID-19 patient because of viral infection that leads to a systemic response in the immune system, specifically due to cytokine storm. Moreover, the antiviral drugs that have not been found. Indonesia had a variety of traditional medicines, such as is ‘jamu’. It consists of a mixture of natural ingredients such as Moringa oleifera Lam. and Curcuma longa L. Aims: To identify the activity of dual inhibitors as antiviral and anti-inflammatory agents from herbal combination compounds. Methods: Sample was collected from PubChem (NCBI, USA) and Protein Data Bank (PDB), then drug-likeness analysis using Lipinski rule of five in SCFBIO web server and bioactive probability analysis of bioactive compounds were conducted by PASS web server. Furthermore, the blind docking method was performed using PyRx 0.8 software to determine the binding activity and molecular interaction by PoseView web server and PyMol software v2.4.1 (Schrödinger, Inc, USA). Results: Cryptochlorogenic acid and curcumin have been computationally proven as dual inhibitors for antivirals by inhibiting Mpro SARS-CoV-2 and as anti-inflammatory through inhibition of NFKB1 activity. However, the results are merely computational so that it must be validated through a wet lab research. Conclusions: The combination of Moringa oleifera Lam. and Curcuma longa L. is predicted to have antiviral and anti-inflammatory activity through dual inhibitor mechanism played by cryptochlorogenic acid and curcumin.

Published

2022

6. Antioxidant and Anti-inflammatory Activity of Sea Cucumber ( Active Compounds against KEAP1 and iNOS Protein

Author

Teresa Liliana Wargasetia, Hana Ratnawati, Nashi Widodo, and Muhammad Hermawan Widyananda

Subjects

Biology (General), QH301-705.5

Abstract

Oxidative stress and inflammation have a role in the development of various diseases. Oxidative stress and inflammation are associated with many proteins, including Kelch ECH associating protein 1 (KEAP1) and inducible nitric oxide synthase (iNOS) proteins. The active compounds contained in Holothuria scabra have antioxidant and anti-inflammatory properties. This study aimed to evaluate the antioxidant and anti-inflammatory activity of sea cucumber’s active compounds by targeting KEAP1 and iNOS proteins. 2,2-Diphenyl-1-picrylhydrazyl (DPPH) and nitric oxide (NO) scavenging activity of H. scabra extract were measured spectrophotometrically. The 3-dimensional (3D) structures of sea cucumber’s active compounds and proteins were obtained from the PubChem and Research Collaboratory for Structural Bioinformatics Protein Data Bank (RCSB PDB) databases. Molecular docking was performed using AutoDock Vina software. Molecular dynamics simulations were carried out using Yet Another Scientific Artificial Reality Application (YASARA) software with environmental parameters according to the cell’s physiological conditions. The membrane permeability test was performed using the PerMM web server. The methanol extract of H. scabra had a weak antioxidant activity against DPPH and strong activity against NO radical. Scabraside and holothurinoside G had the most negative binding affinity values when interacting with the active site of KEAP1 and iNOS proteins. Molecular dynamics simulations also showed that both compounds were stable when interacting with KEAP1 and iNOS. However, scabraside and holothurinoside G were difficult to penetrate the cell plasma membrane, which is seen from the high energy transfer value in the lipid acyl chain region of phospholipids. Scabraside and holothurinoside G are predicted to act as antioxidants and anti-inflammations, but in their implementation to in vitro and in vivo study, it is necessary to have liposomes or nanoparticles, or other delivery methods to help these 2 compounds enter the cell.

Published

2023

7. Molecular docking study of sea urchin (Arbacia lixula) peptides as multi-target inhibitor for non-small cell lung cancer (NSCLC) associated proteins.

Author

Muhammad Hermawan Widyananda, Setyaki Kevin Pratama, Rizky Senna Samoedra, Fikriya Novita Sari, Viol Dhea Kharisma, Arif Nur Muhammad Ansori, and Yulanda Antonius

Subjects

arbacia lixula, molecular docking, non-small cell lung cancer, Therapeutics. Pharmacology, RM1-950, Pharmacy and materia medica, RS1-441

Abstract

Context: Lung cancer is a type of cancer that causes the most deaths worldwide. The most common type of lung cancer is non-small cell lung cancer (NSCLC). Sea urchin (Arbacia lixula) has high potential as an anti-NSCLC agent. Aims: To analyze the anticancer activity of peptides from A. lixula coelomic fluid in inhibiting the activity of NSCLC-related proteins. Methods: Peptide modeling was performed using the PEP-FOLD3 web server. Proteins that have a crucial role in NSCLC progression were determined using KEGG pathway database. 3D protein structures such as EGFR, PI3K, BRAF V600E, and JAK3 were taken from the RCSB PDB database. Docking was performed using Autodock Vina software. Docking results analysis was carried out using Discovery Studio 2019 software. Results: Some peptides bind to the active sites with low binding affinity. Peptide 10 binds to the active site of the EGFR with a binding affinity of -9 kcal/mol. Peptide 5 binds to the active sites of PI3K and BRAF V600E with binding affinity of -8.2 and -8.1 kcal/mol, respectively. Peptide 11 binds to the active site of JAK3 with a binding affinity of -8.1 kcal/mol. All of these peptides have lower binding affinity than ATP as the native ligand. Besides, these peptides also produce more hydrogen bonds than ATP, so they are predicted to be more stable. Conclusions: Peptides 10, 5, and 11 have high potential as anti-NSCLC agents because they can inhibit the activity of proteins that play an essential role in the growth of NSCLC, namely EGFR, PI3K, BRAF V600E, and JAK3 through the competitive ATP inhibitor mechanism.

Published

2021

8. Tea catechin as antiviral agent via apoptosis agonist and triple inhibitor mechanism against HIV-1 infection: A bioinformatics approach.

Author

Viol Dhea Kharisma, Muhammad Hermawan Widyananda, Arif Nur Muhammad Ansori, Aondohemba Samuel Nege, Sin War Naw, and Alexander Patera Nugraha

Subjects

antiretrovirals, apoptosis, catechin, herbal medicine, human immunodeficiency virus, Therapeutics. Pharmacology, RM1-950, Pharmacy and materia medica, RS1-441

Abstract

Context: Human immunodeficiency virus (HIV) antiretrovirals that target the binding of viral enzyme are chosen as the lead solution in the treatment of HIV-1 infection, such as non-catalytic site integrase inhibitor (NCINI), nevirapine, and darunavir. There are natural compounds from specific plants that can be effective in treating HIV-1 infection such as tea catechin. Tea catechin administration causes a decrease in viral load and inhibition of entry mechanisms and an increased effect of apoptosis in infected cells. Aims: To identify the triple inhibitor mechanism in tea catechins against the three HIV-1 enzymes and apoptosis agonists through in silico approach as an innovation in handling HIV-1 infection. Methods: The 3D structure of tea catechin compounds from the database was examined, and then all target compounds were analyzed for drug-likeness, molecular docking, pathway prediction, and molecular interactions to determine the potential of tea catechin compounds as antiviral HIV-1 in silico. Results: Tea catechin compounds have the potential to serve as antiviral against HIV-1 through apoptosis agonist and triple inhibitor mechanisms. Apoptosis occurs due to the interaction of tea catechins with pro-apoptotic proteins in cells, and the epigallocatechin gallate (EGCG) compound is a class of tea catechins with the same binding position as control. Conclusions: The binding of the EGCG molecule complex results in low binding energy. Therefore, it allows EGCG acts as a triple inhibitor in HIV-1 infection.

Published

2021

9. Anticancer activity of Caesalpinia sappan by downregulating mitochondrial genes in A549 lung cancer cell line [version 2; peer review: 2 approved]

Author

Nashi Widodo, Masruri Masruri, Yoga Dwi Jatmiko, Muhammad Hermawan Widyananda, Sapti Puspitarini, Septian Tri Wicaksono, and Adzral Alamsyah

Subjects

A549 cells, apoptosis, ATP production, Caesalpinia sappan, cytotoxicity, mitochondrial dysfunction, eng, Medicine, Science

Abstract

Background: The standardization and mechanism of action of Caesalpinia sappan as an anticancer agent are still lacking. This study aimed to understand the mechanism of action of C,sappan extract as an anticancer agent. Methods: This study was conducted using the A549 lung cancer cell line to understand the mechanism of action of C. sappan extract as an anticancer agent. The cytotoxicity activity, cell cycle progression, apoptosis, protein-related apoptosis (i.e., BCL-2and BAX protein) assays, and RNA sequencing were performed level were measured. Moreover, the antioxidant activity, total flavonoids, and phenolics of C.sappan were also assessed. Results: C.sappan has strong antioxidant activity (22.14 ± 0.93 ppm) total flavonoid content of (529.3 ± 4.56 mgQE/g), and phenolics content of (923.37 ± 5 mgGAE/g). The C.sappan ethanol extract inhibited cancer cell growth and arrested at G0/G1 phase of cell cycle, inducing apoptosis by increasing BAX/BCL-2 protein ratio in A549 lung cancer cell line. Furthermore, results from RNA sequencing analysis showed that C.sappan ethanol extract caused downregulation of genes acting on mitochondrial function including adenosine triphosphate (ATP) production and respiration. Conclusions: This study demonstrated that C.sappan has the ability to inhibit cancer cell growth by inducing apoptosis and mitochondrial dysfunction in A549 cells.

Published

2022

10. A Potential Anticancer Mechanism of Finger Root (Boesenbergia rotunda) Extracts against a Breast Cancer Cell Line

Author

Muhammad Hermawan Widyananda, Septian Tri Wicaksono, Kurnia Rahmawati, Sapti Puspitarini, Siti Mariyah Ulfa, Yoga Dwi Jatmiko, Masruri Masruri, and Nashi Widodo

Subjects

Medicine, Science

Abstract

Breast cancer is the most common type of cancer women suffer from worldwide in 2020 and the 4th leading cause of cancer death. Boesenbergia rotunda is an herb with high potential as an anticancer agent. This study explores the potential bioactive compounds in B. rotunda as anti-breast cancer agents using in silico and in vitro approaches. The in silico study was used for active compound analysis, selection of anticancer compound candidates, prediction of target protein, functional annotation, molecular docking, and molecular dynamics simulation, respectively. The in vitro study was conducted by measurement toxicity, rhodamine 123, and apoptosis assays on T47D cells. Based on the KNApSAcK database, B. rotunda contained 20 metabolites, which are dominated by chalcone and flavonoid groups. Seven of them were predicted to have anticancer activity, namely, sakuranetin, cardamonin, alpinetin, 2S-pinocembrin, 7.4′-dihydroxy-5-methoxyflavanone, 5.6-dehydrokawain, and pinostrobin chalcone. These compounds targeted proteins related to cancer progression pathways such as the PI3K/Akt, FOXO, JAK/STAT, and estrogen signaling pathways. Therefore, these compounds are predicted to inhibit growth and induce apoptosis of cancer cells through their interactions with MMP12, MMP13, CDK4, JAK3, VEGFR1, VEGFR2, and KCNA3. Anticancer activity of B. rotunda through in vitro study confirmed that B. rotunda extract is strong cytotoxic and induces apoptosis of breast cancer cell lines. This study concludes that Boesenbergia rotunda has potency as an anticancer candidate.

Published

2022

11. Bioinformatics Study of Sea Cucumber Peptides as Antibreast Cancer Through Inhibiting the Activity of Overexpressed Protein (EGFR, PI3K, AKT1, and CDK4)

Author

Teresa Liliana Wargasetia, Hana Ratnawati, Nashi Widodo, and Muhammad Hermawan Widyananda

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Breast cancer is the most common type of cancer in women globally. The overexpressed proteins, including EGFR, PI3K, AKT1, and CDK4, have a role in the growth of breast cancer cells. The 3D peptide structure of sea cucumber Cucumaria frondosa was modeled and then docked with EGFR, PI3K, AKT1, and CDK4 proteins using AutoDock Vina software. The docking result, which has the best binding affinity value, is continued with molecular dynamics simulation. The docking results showed that all peptides bind to the active sites of the four proteins. WPPNYQW and YDWRF peptides bind to proteins with lower binding affinity values than positive controls. The four proteins were in a stable state when complexed with the WPPNYQW peptide, which was seen from the RMSD and RMSF value. PI3K-YDWRF and AKT1-YDWRF complexes are stable, characterized by high RMSD values and increased volatility in several amino acids. WPPNYQW peptide has high potential as an antibreast cancer agent because it binds to the active sites of the four proteins with low binding affinity values and stable interactions. Meanwhile, the YDWRF peptide interacts with the four proteins with low binding affinity values, but the interaction is only stable on PI3K and AKT1 proteins.

Published

2021

12. Anticancer potential of turmeric ( Curcuma longa) ethanol extract and prediction of its mechanism through the Akt1 pathway [version 1; peer review: 2 approved with reservations]

Author

Muhammad Hermawan Widyananda, Sapti Puspitarini, Abdul Rohim, Fika Agalia Khairunnisa, Yoga Dwi Jatmiko, Masruri Masruri, and Nashi Widodo

Subjects

Research Article, Articles, Akt1, apoptosis, docking, cell cycle, molecular dynamics, T47D

Abstract

Background: Turmeric ( Curcuma longa) has high potential as a traditional anticancer drug. This study aimed to analyze the anticancer activity of turmeric ethanol extract on T47D cells and examine the interaction of Akt1 protein with compounds contained in turmeric. Methods: The cytotoxicity assay was conducted using WST-1 reagents. Apoptosis assay used annexin V-PI, whereas cell cycle assay used PI, and then the results were analyzed using a flow cytometer. LC-HRMS analysis was conducted to identify the active compounds. Docking between Akt1 and ligands was performed using Autodock 4.2 software. Molecular dynamics simulations were conducted using YASARA with a time parameter of 20 ns, pH 7.4, and 37°C. Results: The extract had a strong toxicity on T47D cells (cytotoxicity IC 50 value: 26.36 ± 1.55 µg/mL). The extract induced apoptosis of T47D cells at the IC 50 dose (~30% cells) and induced the cell cycle arrest in G1 phase. Curcumin, 2-hydroxycinnamic acid and caryophyllene oxide had lower binding energy into Akt1 than AZD5363 used as a positive control. Curcumin, Ar-turmerone, and α-curcumene bind in the ATP binding pocket of Akt1, so the compounds have a high potential to be an ATP-competitive Akt1 inhibitors. The interaction of Akt1 with the compound contained in turmeric had an RMSD backbone value that was more stable than that of ATP and AZD5363. Root-mean-square fluctuation values indicated that amino acid residues that had an essential role in ligand binding sites were stable during simulation. Conclusions: The turmeric ethanol extract had a potential anti-cancer effect by inducing apoptosis and inhibiting cell cycle progression on T47D cells. The docking analysis showed that the active compounds of the extract, such as curcumin, Ar-turmerone, caryophyllene oxide, and α-curcumene, were able to bind into the ATP binding pocket of Akt1 that might inhibit the protein activity and induce cell cycle arrest.

Published

2022

13. Anticancer activity of Caesalpinia sappan by downregulating mitochondrial genes in A549 lung cancer cell line [version 1; peer review: 1 approved, 1 approved with reservations]

Author

Nashi Widodo, Sapti Puspitarini, Muhammad Hermawan Widyananda, Adzral Alamsyah, Septian Tri Wicaksono, Masruri Masruri, and Yoga Dwi Jatmiko

Subjects

Research Article, Articles, A549 cells, apoptosis, ATP production, Caesalpinia sappan, cytotoxicity, mitochondrial dysfunction

Abstract

Background: The standardization and mechanism of action of Caesalpinia sappan as an anticancer agent are still lacking. This study aimed to understand the mechanism of action of C,sappan extract as an anticancer agent. Methods: This study was conducted using the A549 lung cancer cell line to understand the mechanism of action of C. sappan extract as an anticancer agent. The cytotoxicity activity, cell cycle progression, apoptosis, protein-related apoptosis (i.e., BCL-2and BAX protein) assays, and RNA sequencing were performed level were measured. Moreover, the antioxidant activity, total flavonoids, and phenolics of C.sappan were also assessed. Results: C.sappan has strong antioxidant activity (22.14 ± 0.93 ppm) total flavonoid content of (529.3 ± 4.56 mgQE/g), and phenolics content of (923.37 ± 5 mgGAE/g). The C.sappan ethanol extract inhibited cancer cell growth and arrested at G0/G1 phase of cell cycle, inducing apoptosis by increasing BAX/BCL-2 protein ratio in A549 lung cancer cell line. Furthermore, results from RNA sequencing analysis showed that C.sappan ethanol extract caused downregulation of genes acting on mitochondrial function including adenosine triphosphate (ATP) production and respiration. Conclusions: This study demonstrated that C.sappan has the ability to inhibit cancer cell growth by inducing apoptosis and mitochondrial dysfunction in A549 cells.

Published

2022

14. Nano Transdermal Delivery Potential of Fucoidan from Sargassum sp. (Brown Algae) as Chemoprevention Agent for Breast Cancer Treatment

Author

Syeftyan Muhammad Ali Hamami, Michelle Fai, Ahmad Fariduddin Aththar, M Nizam Zulfi Zakaria, Viol Dhea Kharisma, Ahmad Affan Ali Murtadlo, Muhammad Badrut Tamam, Vikash Jakhmola, Muhammad Hermawan Widyananda, Dora Dayu Rahma Turista, Maksim Rebezov, Nikolai Maksimiuk, Nataliya Kulmakova, Evgeniya Latynina, ANM Ansori, Rahadian Zainul, Riso Sari Mandeli, Devi Purnamasari, Oski Illiandri, Khoirun Nisyak, and Ernarisa Fitri

Subjects

Pharmacology, Drug Discovery

Published

2023

15. In Silico Study of Entry Inhibitor from Moringa oleifera Bioactive Compounds against SARS-CoV-2 Infection

Author

Nala Mawaddani, Ekris Sutiyanti, Muhammad Hermawan Widyananda, Viol Dhea Kharisma, Dora Dayu Rahma Turista, Muhammad Badrut Tamam, Vikash Jakhmola, Syamsurizal Syamsurizal S, Bayu Ramadhani Fajri, Muhammad Raffi Ghifari, Muhammad Thoriq Albari, Muhammad Arya Ghifari, Amalia Putri Lubis, Dony Novaliendry, Dwi Hilda Putri, Fadhilah Fitri, Devni Prima Sari, Alexander Patera Nugraha, ANM Ansori, Maksim Rebezov, and Rahadian Zainul

Subjects

Pharmacology, Drug Discovery

Published

2022

16. The phytochemical and pharmacological activity of extract Kirinyuh (Chromolaena odorata L.) leaves: A Review

Author

Erna Harfiani, Yudhi Nugraha, Citra Ayu Aprilia, Feda Anisah Makkiyah, Ratna Puspita, Viol Dhea Kharisma, Muhammad Hermawan Widyananda, Ahmad Affan Ali Murtadlo, Dora Dayu Rahma Turista, Muhammad Badrut Tamam, Riso Sari Mandeli, Mirella Fonda Maahury, Devi Purnamasari, Muhammad Arya Ghifari, Muhammad Thoriq Albari, Muhammad Raffi Ghifari, Asmi Citra Malina AR Tasakka, Alexander Patera Nugraha, and Rahadian Zainul

Subjects

Pharmacology, Drug Discovery

Published

2022

17. In Silico Screening of Bioactive Compounds from Garcinia mangostana L. Against SARS-CoV-2 via Tetra Inhibitors

Author

Nur Sofiatul Aini, Viol Dhea Kharisma, Muhammad Hermawan Widyananda, Ahmad Affan Ali Murtadlo, Rasyadan Taufiq Probojati, Dora Dayu Rahma Turista, Muhammad Badrut Tamam, Vikash Jakhmola, Elsa Yuniarti, Saddam Al Aziz, Muhammad Raffi Ghifari, Muhammad Thoriq Albari, Riso Sari Mandeli, Muhammad Arya Ghifari, Devi Purnamasari, Budhi Oktavia, Amalia Putri Lubis, Fajriah Azra, Fadhilah Fitri, ANM Ansori, Maksim Rebezov, and Rahadian Zainul

Subjects

Pharmacology, Drug Discovery

Published

2022

18. Bioactive Compounds from Purslane (Portulaca oleracea L.) and Star Anise (Illicium verum Hook) as SARS-CoV-2 Antiviral Agent via Dual Inhibitor Mechanism: In Silico Approach

Author

Nur Sofiatul Aini, Viol Dhea Kharisma, Muhammad Hermawan Widyananda, Ahmad Affan Ali Murtadlo, Rasyadan Taufiq Probojati, Dora Dayu Rahma Turista, Muhammad Badrut Tamam, Vikash Jakhmola, Dony Novaliendry, Riso Sari Mandeli, Budhi Oktavia, Muhammad Thoriq Albari, Saddam Al Aziz, Muhammad Raffi Ghifari, Okta Suryani, Putri Azhari, Muhammad Arya Ghifari, Devi Purnamasari, Agariadne Dwinggo Samala, Mirella Fonda Maahury, ANM Ansori, and Rahadian Zainul

Subjects

Pharmacology, Drug Discovery

Published

2022

19. In Silico Screening of Bioactive Compounds from Syzygium cumini L. and Moringa oleifera L. Against SARS-CoV-2 via Tetra Inhibitors

Author

Nur Sofiatul Aini, Viol Dhea Kharisma, Muhammad Hermawan Widyananda, Ahmad Affan Ali Murtadlo, Rasyadan Taufiq Probojati, Dora Dayu Rahma Turista, Muhammad Badrut Tamam, Vikash Jakhmola, Devni Prima Sari, Muhammad Thoriq Albari, Devi Pernamasari, Muhammad Arya Ghifari, Muhammad Raffi Ghifari, Riso Sari Mandeli, Muhardi Muhardi, Budhi Oktavia, Trisna Kumala Sari, Titi Sriwahyuni, Putri Azhari, Mirella Fonda Maahury, ANM Ansori, and Rahadian Zainul

Subjects

Pharmacology, Drug Discovery

Published

2022

20. Multi-Strain Human Papillomavirus (HPV) Vaccine Innovation via Computational Study: A Mini Review

Author

Viol Dhea Kharisma, Arif Nur Muhammad Ansori, Vikash Jakhmola, Wahyu Choirur Rizky, Muhammad Hermawan Widyananda, Rasyadan Taufiq Probojati, Ahmad Affan Ali Murtadlo, Maksim Rebezov, Pavel Scherbakov, Pavel Burkov, Yulia Matrosova, Alexander Romanov, Maic Audo Eybi Mayer Sihombing, Yulanda Antonius, and Rahadian Zainul

Subjects

Pharmacology (medical), Pharmacology, Toxicology and Pharmaceutics (miscellaneous)

Abstract

Human papillomavirus (HPV) is a small and non-enveloped deoxyribonucleic acid (DNA) virus that infected mucosal cells. This viral genome is composed of early and late genes. Late (L) encodes the L1 and L2 proteins. The structural protein L1 is located outside the virion. It contributes to the viral attachment mechanism; hence it becomes the target for multi-strain vaccine design. This review aims to discuss the potency of conserved L1 HPV region and the innovation of multi-strain vaccines for prevention strategies of HPV infection. Bioinformatics methods in vaccine design applied for identification of conserved sequences from databases, epitopes map, antigenicity test, prediction of similarity, and autoimmune level. The multi-strain vaccine innovation initiated in this review has more benefits compared to previous vaccines based on the level of vaccine coverage via conserved regions, potential of immune cell epitopes, antigenic properties, and possibility of autoimmune when produced. Therefore, the multi-strain HPV vaccines are predicted to be more effective than previous vaccines, including bivalent or quadrivalent. In conclusion, the strategy for expanding the prevention of HPV infection could be carried out by developing a new multi-strain-based vaccine by using conserved regions in L1 capsid from all virus strains to increase the protection.

Published

2022

21. Potential Roles of Purslane (Portulaca oleracea L.) as Antimetabolic Syndrome: A Review

Author

Nur Sofiatul Aini, Arif Nur Muhammad Ansori, Viol Dhea Kharisma, Muhammad Farraz Syadzha, Muhammad Hermawan Widyananda, Ahmad Affan Ali Murtadlo, Rasyadan Taufiq Probojati, Md. Emdad Ullah, Sin War Naw, Vikash Jakhmola, and Rahadian Zainul

Subjects

Pharmacology, Drug Discovery

Published

2022

22. In Silico Phytochemical Compounds Screening of Allium sativum Targeting the Mpro of SARS-CoV-2

Author

Priscilla Listiyani, Viol Dhea Kharisma, Arif Nur Muhammad Ansori, Muhammad Hermawan Widyananda, Rasyadan Taufiq Probojati, Ahmad Affan Ali Murtadlo, Dora Dayu Rahma Turista, Md. Emdad Ullah, Vikash Jakhmola, and Rahadian Zainul

Subjects

Pharmacology, Drug Discovery

Published

2022

23. Viroinformatics study: polytope mapping of envelope glycoprotein to tackle HIV-2 infection and develop vaccine candidate

Author

Viol Dhea Kharisma, Muhammad Hermawan Widyananda, Rasyadan Taufiq Probojati, Arif Nur Muhammad Ansori, Ahmad Affan Ali Murtadlo, Muhammad Badrut Tamam, Adhityo Wicaksono, and Dora Dayu Rahma Turista

Abstract

Human Immunodeficiency Virus type 2 (HIV-2) has been identified to exhibit an ability to resist antiretroviral administration and many scientists has predicted increases in the pathogenicity of HIV-2. The development of a vaccine against the type 1 virus (HIV-1) infection has reached the phase 3 clinical trial stage, but currently there is no information on the development of a vaccine against HIV-2. Vaccine development to trigger an increase in the coverage of the expansion of protection can be done through B cell polytope. This study aims to provide an important preliminary for the construction of vaccine candidates by identifying the peptides that make up the B cell polytope in the HIV-2 envelope glycoprotein region. The HIV-2 sequence was obtained from the database. The study followed by 3D modelling, prediction of linear B-cell epitope mapping, antigenicity, allergenicity, peptide properties, and immune simulation was carried out via a webserver. The 3D structure of the peptide was displayed through molecular visualization software. The results showed that the 23-mer peptides E1 'HPRYTGVKNIRDITLTEPGRGSD', F1 'NFIENRKGTQHN' 12-mer, M1 'YLKDQARLNS' 10-mer, N1 'PWVNDSIQPNWNNMTWQQWELQVRD' 25-mer, and O1 'KLQNSWNMGVQTO' can be used as a candidate polytope HIV-2 vaccine because it is recognized by B cells is an antigenic peptide with stable molecule, non-allergenic. The peptides trigger proliferation and activation of B cells to produces a humoral response and work as functionally protective antibody for neutralization of HIV-2. Key words: Acquired Immune Deficiency Syndrome, B-cell, Bioinformatics, Human Immunodeficiency Virus, Retrovirus

Published

2021

24. Exploring active compounds of kelor (Moringa oleifera Lam.) leaves as an alternative medicine to improve immunity in facing COVID-19 via in silico study

Author

Agus Mohammad Hikam, Nurul Jadid Mubarakati, Rasyadan Taufiq Probojati, Muhammad Hermawan Widyananda, Viol Dhea Kharisma, and Arif Nur Muhammad Ansori

Abstract

SARS-CoV-2 is a new strain of coronavirus (CoV) that was identified in Wuhan in 2019. This virus is known to have the ability to reduce human immunity. Kelor (Moringa oleifera) is a potential natural resource in Indonesia, which is very abundant and contains several metabolic compounds such as phenolics, flavonoids, saponins, cytokines, and caffeoylquinic acid, which was reported to show antioxidants, antibacterial and antiviral. This study aims to predict the biological activity, physicochemical properties, toxicity, and affinity-interactions of the active compounds of M. oleifera leave. The active compounds of M. oleifera were obtained from the KNApSAcK and PubChem. Analysis of the bioactivity of the compounds using the Way2Drug Pass Online. Analysis of drug-likeness and toxicity using the Lipinski web server and pkCSM. Docking is done using Autodock vina software to analyze the interaction of the compounds with Mpro. The results indicate that the compound astragalin is the compound with the highest affinity value, namely -8.7 (kcal/mol), compared to lopinavir as a control compound with an affinity value -6.6 (kcal/mol). The types of bonds in astragalin compounds are hydrogen bonds with amino acids Glutamine 127 and Arginine 298. From these results, it is predicted that astragalin compounds have the highest potential as alternative drugs to increase body immunity against the COVID-19.

Published

2021

25. Anticancer activity of

Author

Nashi, Widodo, Sapti, Puspitarini, Muhammad Hermawan, Widyananda, Adzral, Alamsyah, Septian Tri, Wicaksono, Masruri, Masruri, and Yoga Dwi, Jatmiko

Subjects

Flavonoids, Adenosine Triphosphate, Caesalpinia, Genes, Mitochondrial, Lung Neoplasms, Ethanol, A549 Cells, Plant Extracts, Humans, Antineoplastic Agents, Antioxidants, bcl-2-Associated X Protein

Published

2022

26. Antioxidant and Anti-inflammatory Activity of Sea Cucumber (Holothuria scabra) Active Compounds against KEAP1 and iNOS Protein

Author

Teresa Liliana Wargasetia, Hana Ratnawati, Nashi Widodo, and Muhammad Hermawan Widyananda

Subjects

Computational Mathematics, Applied Mathematics, Molecular Biology, Biochemistry, Computer Science Applications

Abstract

Oxidative stress and inflammation have a role in the development of various diseases. Oxidative stress and inflammation are associated with many proteins, including Kelch ECH associating protein 1 (KEAP1) and inducible nitric oxide synthase (iNOS) proteins. The active compounds contained in Holothuria scabra have antioxidant and anti-inflammatory properties. This study aimed to evaluate the antioxidant and anti-inflammatory activity of sea cucumber’s active compounds by targeting KEAP1 and iNOS proteins. 2,2-Diphenyl-1-picrylhydrazyl (DPPH) and nitric oxide (NO) scavenging activity of H. scabra extract were measured spectrophotometrically. The 3-dimensional (3D) structures of sea cucumber’s active compounds and proteins were obtained from the PubChem and Research Collaboratory for Structural Bioinformatics Protein Data Bank (RCSB PDB) databases. Molecular docking was performed using AutoDock Vina software. Molecular dynamics simulations were carried out using Yet Another Scientific Artificial Reality Application (YASARA) software with environmental parameters according to the cell’s physiological conditions. The membrane permeability test was performed using the PerMM web server. The methanol extract of H. scabra had a weak antioxidant activity against DPPH and strong activity against NO radical. Scabraside and holothurinoside G had the most negative binding affinity values when interacting with the active site of KEAP1 and iNOS proteins. Molecular dynamics simulations also showed that both compounds were stable when interacting with KEAP1 and iNOS. However, scabraside and holothurinoside G were difficult to penetrate the cell plasma membrane, which is seen from the high energy transfer value in the lipid acyl chain region of phospholipids. Scabraside and holothurinoside G are predicted to act as antioxidants and anti-inflammations, but in their implementation to in vitro and in vivo study, it is necessary to have liposomes or nanoparticles, or other delivery methods to help these 2 compounds enter the cell.

Published

2023

27. Anticancer Potential of Turmeric (Curcuma longa) Ethanol Extract and Prediction of Its Mechanism Through the Akt1 Pathway

Author

Muhammad Hermawan Widyananda, Sapti Puspitarini, Abdul Rohim, Fika Agalia Khairunnisa, Yoga Dwi Jatmiko, Masruri Masruri, and Nashi Widodo

Subjects

General Immunology and Microbiology, General Medicine, General Pharmacology, Toxicology and Pharmaceutics, General Biochemistry, Genetics and Molecular Biology

Abstract

Background: Turmeric (Curcuma longa) has high potential as a traditional anticancer drug. This study aimed to analyze the anticancer activity of turmeric ethanol extract on T47D cells and examine the interaction of Akt1 protein with compounds contained in turmeric. Methods: The cytotoxicity assay was conducted using WST-1 reagents. Apoptosis assay used annexin V-PI, whereas cell cycle assay used PI, and then the results were analyzed using a flow cytometer. LC-HRMS analysis was conducted to identify the active compounds. Docking between Akt1 and ligands was performed using Autodock 4.2 software. Molecular dynamics simulations were conducted using YASARA with a time parameter of 20 ns, pH 7.4, and 37°C. Results: The extract had a strong toxicity on T47D cells (cytotoxicity IC50 value: 26.36 ± 1.55 µg/mL). The extract induced apoptosis of T47D cells at the IC50 dose (~30% cells) and induced the cell cycle arrest in G1 phase. Curcumin, 2-hydroxycinnamic acid and caryophyllene oxide had lower binding energy into Akt1 than AZD5363 used as a positive control. Curcumin, Ar-turmerone, and α-curcumene bind in the ATP binding pocket of Akt1, so the compounds have a high potential to be an ATP-competitive Akt1 inhibitors. The interaction of Akt1 with the compound contained in turmeric had an RMSD backbone value that was more stable than that of ATP and AZD5363. Root-mean-square fluctuation values indicated that amino acid residues that had an essential role in ligand binding sites were stable during simulation. Conclusions: The turmeric ethanol extract had a potential anti-cancer effect by inducing apoptosis and inhibiting cell cycle progression on T47D cells. The docking analysis showed that the active compounds of the extract, such as curcumin, Ar-turmerone, caryophyllene oxide, and α-curcumene, were able to bind into the ATP binding pocket of Akt1 that might inhibit the protein activity and induce cell cycle arrest.

Published

2021

28. Bioinformatics Study of Sea Cucumber Peptides as Antibreast Cancer Through Inhibiting the Activity of Overexpressed Protein (EGFR, PI3K, AKT1, and CDK4)

Author

Hana Ratnawati, Nashi Widodo, Teresa Liliana Wargasetia, and Muhammad Hermawan Widyananda

Subjects

Cancer Research, CDK4, EGFR, AKT1, Peptide, 01 natural sciences, PI3K, Sea cucumber, Cucumaria, medicine, Sea cucumbers, PI3K/AKT/mTOR pathway, RC254-282, Original Research, chemistry.chemical_classification, biology, 010405 organic chemistry, Chemistry, Cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, medicine.disease, biology.organism_classification, peptide, 0104 chemical sciences, Amino acid, 010404 medicinal & biomolecular chemistry, Oncology, Biochemistry, Docking (molecular)

Abstract

Breast cancer is the most common type of cancer in women globally. The overexpressed proteins, including EGFR, PI3K, AKT1, and CDK4, have a role in the growth of breast cancer cells. The 3D peptide structure of sea cucumber Cucumaria frondosa was modeled and then docked with EGFR, PI3K, AKT1, and CDK4 proteins using AutoDock Vina software. The docking result, which has the best binding affinity value, is continued with molecular dynamics simulation. The docking results showed that all peptides bind to the active sites of the four proteins. WPPNYQW and YDWRF peptides bind to proteins with lower binding affinity values than positive controls. The four proteins were in a stable state when complexed with the WPPNYQW peptide, which was seen from the RMSD and RMSF value. PI3K-YDWRF and AKT1-YDWRF complexes are stable, characterized by high RMSD values and increased volatility in several amino acids. WPPNYQW peptide has high potential as an antibreast cancer agent because it binds to the active sites of the four proteins with low binding affinity values and stable interactions. Meanwhile, the YDWRF peptide interacts with the four proteins with low binding affinity values, but the interaction is only stable on PI3K and AKT1 proteins.

Published

2021