Computational analysis of PTP-1B site-directed mutations and their structural binding to potential inhibitorsopen access
- Authors
- Tasleem, Munazzah; Shoaib, Ambreen; Al-Shammary, Asma; Abdelgadir, Abdelmuhsin; El Asmar, Zeina; Jamal, Qazi Mohammad Sajid; Alrehaily, Abdulwahed; Bardcki, Fevzi; Sulieman, Abdel Moneim E.; Upadhyay, Tarun Kumar; Ansari, Irfan Ahmad; Lai, Dakun; Badraoui, Riadh; Yadav, Dharmendra Kumar; Saeed, Mohd
- Issue Date
- Dec-2022
- Publisher
- C M B ASSOC
- Keywords
- Multiple sequence alignment; phylogenetic tree; docking; intra-molecular interactions; site-directed mutagenesis; stability; MD simulation
- Citation
- CELLULAR AND MOLECULAR BIOLOGY, v.68, no.7, pp.75 - 84
- Journal Title
- CELLULAR AND MOLECULAR BIOLOGY
- Volume
- 68
- Number
- 7
- Start Page
- 75
- End Page
- 84
- URI
- https://scholarworks.bwise.kr/gachon/handle/2020.sw.gachon/86678
- DOI
- 10.14715/cmb/2022.68.7.13
- ISSN
- 0145-5680
- Abstract
- Protein tyrosine phosphatase-1B (PTP-1B) is a well-known therapeutic target for diabetes and obesity as it suppresses insulin and leptin signaling. PTP-1B deletion or pharmacological suppression boosted glucose homeostasis and insulin signaling without altering hepatic fat storage. Inhibitors of PTP-1B may be useful in the treatment of type 2 diabetes, and shikonin, a naturally occurring naphthoquinone dye pigment, is reported to inhibit PTP-1B and possess antidiabetic properties. Since the cell contains a large number of phosphatases, PTP-1B inhibitors must be effective and selective. To explore more about the mechanism underlying the inhibitor's efficacy and selectivity, we investigated its top four pharmacophores and used site-directed mutagenesis to insert amino acid mutations into PTP-1B as an extension of our previous study where we identified 4 pharmacophores of shikonin. The study aimed to examine the site-directed mutations like R24Y, S215E, and S216C influence the binding of shikonin pharmacophores, which act as selective inhibitors of PTP-1B. To achieve this purpose, docking and molecular dynamics simulations of wild-type (WT) and mutant PTP-1B with antidiabetic compounds were undertaken. The simulation results revealed that site-directed mutations can change the hydrogen bond and hydrophobic interactions between shikonin pharmacophores and many residues in PTP-1B's active site, influencing the drug's binding affinity. These findings could aid researchers in better understanding PTP-1B inhibitors' selective binding mechanism and pave the path for the creation of effective PTP-1B inhibitors. (C) 2022 by the C.M.B. Association. All rights reserved.
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