Plaboni Sen scite author profile

The present study focuses on the interconnected functional network of altered metabolism and EMT (epithelial to mesenchymal transition) signaling in breast cancer. We have interlinked the metabolic and EMT signaling circuits and selected Insulin receptor (IR), Integrin beta 1 (ITGB1), and CD36 as target proteins based on network analysis. Extensive computational approaches discerned the potential drug molecules from the library of 1293 FDA‐approved drugs to block all three target proteins. Using molecular docking, molecular dynamics simulation, and MMPBSA binding free energy studies, Capmatinib, Ponatinib, Naldemedine, and Pimozide were identified as potential repurposed drugs to block the function of all three target proteins. Among in silico selected candidate drugs, Pimozide, a known anti‐psychotic drug, was further validated using in‐vitro studies for its anti‐cell proliferative potential on breast cancer cell lines (namely, MCF7, MDAMB231 and MDAMB468). The inhibitory concentration (IC50) values of MCF7, MDAMB231 and MDAMB468 was found to be 16.26 μM, 20.82 μM and 13.10 μM, respectively. The effect of Pimozide on EMT‐induced MDAMB231 and MDAMB468 cells was evident from their IC50 values of 7.85 μM and 6.83 μM, respectively. The potent anti‐cancer property of Pimozide has opened up avenues for drug repurposing towards ‘multi‐targeted therapy’ in EMT dynamics.

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Nanoparticle mediated alteration of EMT dynamics: an approach to modulate cancer therapeutics

Sen

Saha

Ghosh

2020

Mater. Adv.

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In-silicoevidence of ADAM metalloproteinase pathology in cancer signaling networks

Sen

Kandasamy

Ghosh

2021

Journal of Biomolecular Structure and Dynamics

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The Intricate Notch Signaling Dynamics in Therapeutic Realms of Cancer

Sen

Ghosh

2023

ACS Pharmacol. Transl. Sci.

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The Notch pathway is remarkably simple without the interventions of secondary messengers. It possesses a unique receptor−ligand interaction that imparts signaling upon cleavage of the receptor followed by the nuclear localization of its cleaved intracellular domain. It is found that the transcriptional regulator of the Notch pathway lies at the intersection of multiple signaling pathways that enhance the aggressiveness of cancer. The preclinical and clinical evidence supports the pro-oncogenic function of Notch signaling in various tumor subtypes. Owing to its oncogenic role, the Notch signaling pathway assists in enhanced tumorigenesis by facilitating angiogenesis, drug resistance, epithelial to mesenchymal transition, etc., which is also attributed to the poor outcome in patients. Therefore, it is extremely vital to discover a suitable inhibitor to downregulate the signal-transducing ability of Notch. The Notch inhibitory agents, such as receptor decoys, protease (ADAM and γ-secretase) inhibitors, and monoclonal/bispecific antibodies, are being investigated as candidate therapeutic agents. Studies conducted by our group exemplify the promising results in ablating tumorigenic aggressiveness by inhibiting the constituents of the Notch pathway. This review deals with the detailed mechanism of the Notch pathways and their implications in various malignancies. It also bestows us with the recent therapeutic advances concerning Notch signaling in the context of monotherapy and combination therapy.

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Plaboni Sen

Multi-targeting TACE/ADAM17 and gamma-secretase of notch signalling pathway in TNBC via drug repurposing approach using Lomitapide

Multi‐targeted Drug Repurposing Approach for Breast Cancer via Integrated Functional Network Analysis

Nanoparticle mediated alteration of EMT dynamics: an approach to modulate cancer therapeutics

In-silicoevidence of ADAM metalloproteinase pathology in cancer signaling networks

The Intricate Notch Signaling Dynamics in Therapeutic Realms of Cancer

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