Integrated Computational and Experimental Insights Into MEK1/2 Inhibitors: Structural Validation, Docking, ADMET, Molecular Dynamics, and Anticancer Evaluation

Article

Author: Teli, Ghanshyam ; Matada, Gurubasavaraja Swamy Purawarga ; Pal, Rohit

ABSTRACT:

This study explores the therapeutic potential of novel MEK1/2 inhibitors targeting the MAPK pathway, emphasizing their critical role in cancer progression. An integrated computational approach, including molecular docking, pharmacophore modeling, molecular dynamics simulations, and DFT analysis, was employed to evaluate the binding affinity, stability, and pharmacological properties of FDA‐approved and experimental compounds. Structural validation of MEK1 (PDB ID: 1S9J) and MEK2 (PDB ID: 1S9I) revealed z‐scores of −6.89 and −7.13, respectively, with 90.6% and 86.7% of residues in the most favored regions, confirming the reliability of the protein models. Docking studies identified RO5126766 as a lead compound, exhibiting binding energies of −10.1 kcal/mol with MEK1 and −9.5 kcal/mol with MEK2. Molecular dynamics simulations further demonstrated the stability of the RO5126766–MEK1 and RO5126766–MEK2 complexes, with RMSD values ranging from 0.95 to 4.22 Å. The in vitro anticancer assays highlighted the exceptional potency of RO5126766, with IC50 values of 12.87 ± 98.36 nM against MCF‐7 (hormone receptor‐positive breast cancer), 15.08 ± 94.36 nM against MDA‐MB‐231 (triple‐negative breast cancer), and 60.89 ± 70.58 nM against A549 (lung cancer). ADMET analysis confirmed high gastrointestinal absorption, favorable drug‐likeness, and lack of blood‐brain barrier permeability. In addition, DFT studies indicated an optimal HOMO–LUMO energy gap (0.15816 eV), chemical hardness (0.16189 eV), and strong molecular interactions corroborated by MEP analysis. Collectively, these findings establish RO5126766 as a potent and selective MEK1/2 inhibitor, demonstrating significant potential as a targeted therapeutic agent for aggressive and treatment‐resistant cancers.

22 Feb 2019·Clinical hemorheology and microcirculationQ4 · MEDICINE

PDGF regulated migration of mesenchymal stem cells towards malignancy acts via the PI3K signaling pathway

Q4 · MEDICINE

Article

Author: Loibl, Markus ; Salha, Sonia ; Gehmert, Sanga ; Brébant, Vanessa ; Gehmert, Sebastian ; Prantl, Lukas ; Anker, Alexandra

INTRODUCTION:

Mesenchymal stem cells (MSCs) have been described in breast cancer models to migrate towards carcinoma and integrate into tumor associated stroma supporting tumor growth, increasing their metastatic potency and contributing to tumor-angiogenesis. Platelet-derived growth factor (PDGF) isoforms (AA, BB, CC) stimulate growth, survival and motility of MSCs and certain other cell types. Noteworthy, breast carcinomas are known to express PDGF. We aim to further shed light on i) the relevance of the different PDGF isoforms on adipose tissue derived stem cells (ASCs) migration and ii) the underlying pathway dependent on PDGF stimulation.

MATERIALS AND METHODS:

Breast cancer cell lines were purchased and ASC's were isolated from murine subcutaneous adipose tissue. The transmigration of ASC's towards the PDGF-isoforms was assessed by using recombinant human PDGF-AA, PDGF-BB and PDGF-CC in a trans-well culture dish system. Transmigrated ASC's were quantified in 5 randomly selected fields per condition using fluorescence microscopy after calcein-staining. PDGF-BB depended transmigration of ASC's was verified by downregulation and overexpression of PDGF-BB in breast cancer cell line using lentiviral vectors. In addition, a PI3-kinase inhibitor (LY294002) and a MAP-kinase inhibitor (PD98059) were used to identify the pathway involved in the PDGF-BB mediated migration of ASC's towards tumor.

RESULTS:

ASC's transmigration significantly increased towards PDGF AA at 50 ng and only showed further increase by 500 ng which was similar to cell behavior when exposed to PDGF CC. In comparison, PDGF-BB significantly increased ASC's transmigration already at a low level of 5 ng with further significant increase for 20 ng and 40 ng. Cell transmigration was blocked with PDGFR-α antibodies but only for PDGF-AA and PDGF-CC whereas PDGFR-β blockage showed a significant effect on transmigration for PDGF-BB and PDGF-CC but not for PDGF-AA. Neutralizing antibodies in combination with PDGF receptor blockage confirmed findings. In addition, only PI3-kinase inhibitor but not the MEK-1 selective inhibitor caused a significant decrease of transmigration for ASCs towards breast cancer cells.

DISCUSSION:

The transmigration of ASC's is most significantly enhanced by PDGF-BB via the PI3-kinase pathway. This data support that PI3-kinase is an important key player for MSC migration towards malignancy which need further research to prevent tumor progression in early disease stage.

01 Feb 2018·Bioorganic & medicinal chemistryQ3 · MEDICINE

Discovery of EBI-1051: A novel and orally efficacious MEK inhibitor with benzofuran scaffold

Q3 · MEDICINE

Article

Author: Wan, Hong ; Wang, Dan ; Zhang, Lei ; Tao, Weikang ; Lu, Biao ; Hu, Qiyue ; Zhang, Minsheng ; Zhang, Lianshan ; Yuan, Jijun ; Cao, Jingsong ; Shen, Ru ; Zhang, Jiayin ; Huang, Song

A novel series of benzodihydrofuran derivatives was developed as potent MEK inhibitors through scaffold hopping based on known clinical compounds. Further SAR exploration and optimization led to another benzofuran series with good oral bioavailability in rats. One of the compounds EBI-1051 (28d) demonstrated excellent in vivo efficacy in colo-205 tumor xenograft models in mouse and is suitable for pre-clinical development studies for the treatment of melanoma and MEK associated cancers. Compared to AZD6244, EBI-1051 showed superior potency in some cancer cell lines such as colon-205, A549 and MDA-MB-231.

100 Deals associated with EBI-1051

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Indication	Highest Phase	Country/Location	Organization	Date
Melanoma	Preclinical	United States	Eternity Bioscience, Inc.	01 Feb 2018
Melanoma	Preclinical	China	Shanghai Hengrui Pharmaceutical Co., Ltd.	01 Feb 2018

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