Your search keyword '"Keun Woo Lee"' showing total 4 results

1. Computational Simulations Identify Pyrrolidine-2,3-Dione Derivatives as Novel Inhibitors of Cdk5/p25 Complex to Attenuate Alzheimer’s Pathology

Author

Rabia Mukhtar Rana, Keun Woo Lee, Jae-Yean Kim, Minky Son, Donghwan Kim, Raj Kumar, Shraddha Parate, Amir Zeb, Saravanan Parameswaran, Rahul Mahadev Shelake, Sayed Ibrar Alam, and Shailima Rampogu

Subjects

Pathology, medicine.medical_specialty, inhibition of tau-protein phosphorylation, lcsh:Medicine, 01 natural sciences, Pyrrolidine, Article, Alzheimer’s pathology, 03 medical and health sciences, Molecular dynamics, chemistry.chemical_compound, medicine, Cdk5/p25 inhibition, 030304 developmental biology, 0303 health sciences, biology, Kinase, business.industry, Cyclin-dependent kinase 5, lcsh:R, Calpain, General Medicine, Ligand (biochemistry), pyrrolidine-2,3-dione, Phenotype, female genital diseases and pregnancy complications, eye diseases, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, molecular dynamics simulation, chemistry, nervous system, biology.protein, pharmacophore modeling, Pharmacophore, business

Abstract

Mechanistically, neurotoxic insults provoke Ca2+-mediated calpain activation, which cleaves the cytoplasmic region of membrane-embedded p35 and produces its truncated form p25. Upon physical interaction, cyclin-dependent kinase 5 (Cdk5) and p25 forms hyperactivated Cdk5/p25 complex and causes severe neuropathological aberrations including hyperphosphorylated tau-mediated neurofibrillary tangles formation, Alzheimer’s symptoms, and neuronal death. Therefore, the inhibition of Cdk5/p25 complex may relieve p-tau-mediated Alzheimer’s pathology. Herein, computational simulations have identified pyrrolidine-2,3-dione derivatives as novel inhibitors of Cdk5/p25 complex. A ligand-based pharmacophore was designed and employed as 3D query to retrieve drug-like molecules from chemical databases. By molecular docking, drug-like molecules obtaining dock score > 67.67 (Goldcore of the reference compound) were identified. Molecular dynamics simulation and binding free energy calculation retrieved four pyrrolidine-2,3-dione derivatives as novel candidate inhibitors of Cdk5/p25. The root means square deviation of Cdk5/p25 in complex with candidate inhibitors obtained an average value of ~2.15 Å during the 30 ns simulation period. Molecular interactions analysis suggested that each inhibitor occupied the ATP-binding site of Cdk5/p25 and formed stable interactions. Finally, the binding free energy estimation suggested that each inhibitor had lowest binding energy than the reference compound (−113.10 kJ/mol) to recapitulate their strong binding with Cdk5/p25. Overall, these inhibitors could mitigate tau-mediated Alzheimer’s phenotype.

Published

2019

2. In Silico Study Probes Potential Inhibitors of Human Dihydrofolate Reductase for Cancer Therapeutics

Author

Amir Zeb, Sarvanan Parameswaran, Ayoung Baek, Gihwan Lee, Seok Ju Park, Shailima Rampogu, Sanghwa Yoon, Chanin Park, Keun Woo Lee, Minky Son, and Rabia Mukhtar Rana

Subjects

Stereochemistry, In silico, lcsh:Medicine, 01 natural sciences, Article, 03 medical and health sciences, Dihydrofolate reductase, Medicine, dihydrofolate reductase inhibition, pharmacophore modeling, molecular docking, molecular dynamics simulation, binding free energy, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Virtual screening, biology, business.industry, lcsh:R, Active site, General Medicine, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, Enzyme, chemistry, Docking (molecular), biology.protein, Lipinski's rule of five, Pharmacophore, business

Abstract

Dihydrofolate reductase (DHFR) is an essential cellular enzyme and thereby catalyzes the reduction of dihydrofolate to tetrahydrofolate (THF). In cancer medication, inhibition of human DHFR (hDHFR) remains a promising strategy, as it depletes THF and slows DNA synthesis and cell proliferation. In the current study, ligand-based pharmacophore modeling identified and evaluated the critical chemical features of hDHFR inhibitors. A pharmacophore model (Hypo1) was generated from known inhibitors of DHFR with a correlation coefficient (0.94), root mean square (RMS) deviation (0.99), and total cost value (125.28). Hypo1 was comprised of four chemical features, including two hydrogen bond donors (HDB), one hydrogen bond acceptor (HBA), and one hydrophobic (HYP). Hypo1 was validated using Fischer’s randomization, test set, and decoy set validations, employed as a 3D query in a virtual screening at Maybridge, Chembridge, Asinex, National Cancer Institute (NCI), and Zinc databases. Hypo1-retrieved compounds were filtered by an absorption, distribution, metabolism, excretion, and toxicity (ADMET) assessment test and Lipinski’s rule of five, where the drug-like hit compounds were identified. The hit compounds were docked in the active site of hDHFR and compounds with Goldfitness score was greater than 44.67 (docking score for the reference compound), clustering analysis, and hydrogen bond interactions were identified. Furthermore, molecular dynamics (MD) simulation identified three compounds as the best inhibitors of hDHFR with the lowest root mean square deviation (1.2 Å to 1.8 Å), hydrogen bond interactions with hDHFR, and low binding free energy (−127 kJ/mol to −178 kJ/mol). Finally, the toxicity prediction by computer (TOPKAT) affirmed the safety of the novel inhibitors of hDHFR in human body. Overall, we recommend novel hit compounds of hDHFR for cancer and rheumatoid arthritis chemotherapeutics.

Published

2019

3. Discovery of Potential Plant-Derived Peptide Deformylase (PDF) Inhibitors for Multidrug-Resistant Bacteria Using Computational Studies

Author

Minky Son, Shailima Rampogu, Keun Woo Lee, Ayoung Baek, Chanin Park, and Amir Zeb

Subjects

0301 basic medicine, business.industry, lcsh:R, multidrug-resistant bacteria, lcsh:Medicine, General Medicine, Computational biology, phytochemicals, molecular dynamics (MD) simulation, Ligand (biochemistry), dual pharmacophores, Article, 03 medical and health sciences, Peptide deformylase, 030104 developmental biology, Multidrug resistant bacteria, Medicine, Pharmacophore, business, Decoy, Discovery Studio

Abstract

Bacterial peptide deformylase (PDF) is an attractive target for developing novel inhibitors against several types of multidrug-resistant bacteria. The objective of the current study is to retrieve potential phytochemicals as prospective drugs against Staphylococcus aureus peptide deformylase (SaPDF). The current study focuses on applying ligand-based pharmacophore model (PharmL) and receptor-based pharmacophore (PharmR) approaches. Utilizing 20 known active compounds, pharmL was built and validated using Fischer’s randomization, test set method and the decoy set method. PharmR was generated from the knowledge imparted by the Interaction Generation protocol implemented on the Discovery Studio (DS) v4.5 and was validated using the decoy set that was employed for pharmL. The selection of pharmR was performed based upon the selectivity score and further utilizing the Pharmacophore Comparison module available on the DS. Subsequently, the validated pharmacophore models were escalated for Taiwan Indigenous Plants (TIP) database screening and furthermore, a drug-like evaluation was performed. Molecular docking was initiated for the resultant compounds, employing CDOCKER (available on the DS) and GOLD. Eventually, the stability of the final PDF⁻hit complexes was affirmed using molecular dynamics (MD) simulation conducted by GROMACS v5.0.6. The redeemed hits demonstrated a similar binding mode and stable intermolecular interactions with the key residues, as determined by no aberrant behaviour for 30 ns. Taken together, it can be stated that the hits can act as putative scaffolds against SaPDF, with a higher therapeutic value. Furthermore, they can act as fundamental structures for designing new drug candidates.

Published

2018

4. Natural Compound Modulates the Cervical Cancer Microenvironment—A Pharmacophore Guided Molecular Modelling Approaches

Author

Shailima Rampogu, Smita C. Pawar, Keun Woo Lee, and D. Ravinder

Subjects

0301 basic medicine, pro-inflammatory genes, medicine.drug_class, Protein Data Bank (RCSB PDB), lcsh:Medicine, Article, aromatase inhibitors, forskolin, natural compounds, Bcl-2, Bax, Caspase3, pharmacophore modelling, HeLa, 03 medical and health sciences, 0302 clinical medicine, medicine, Aromatase, Interleukin 6, Gene, Aromatase inhibitor, biology, business.industry, lcsh:R, General Medicine, computer.file_format, Protein Data Bank, biology.organism_classification, 030104 developmental biology, 030220 oncology & carcinogenesis, biology.protein, Cancer research, Pharmacophore, business, computer

Abstract

Cervical cancer is regarded as one of the major burdens noticed in women next to breast cancer. Although, human papilloma viruses (HPVs) are regarded as the principal causative agents, they require certain other factors such as oestrogen hormone to induce cervical cancer. Aromatase is an enzyme that converts androgens into oestrogens and hindering this enzyme could subsequently hamper the formation of oestrogen thereby alleviating the disease. Accordingly, in the current investigation, a structure based pharmacophore was generated considering two proteins bearing the Protein Data Bank (PDB) codes 3EQM (pharm 1) and 3S7S (pharm 2), respectively. The two models were employed as the 3D query to screen the in-house built natural compounds database. The obtained 51 compounds were escalated to molecular docking studies to decipher on the binding affinities and to predict the quintessential binding modes which were affirmed by molecular dynamics (MD) simulations. The compound has induced dose-dependent down regulation of PP2B, Nitric oxide synthase-2 (NOS2), and Interleukin 6 (IL-6) genes in the HeLa cells and has modulated the expression of apoptotic genes such as Bax, Bcl2, and caspases-3 at different concentrations. These results guide us to comprehend that the identified aromatase inhibitor was effective against the cervical cancer cells and additionally could server as scaffolds in designing new drugs.

Published

2018