AI Article Synopsis
- Activated Cdc42-associated kinase (ACK1) plays a critical role in cell functions and is a potential target for cancer treatment; however, effective inhibitors are still lacking in clinical use.
- Researchers developed a pharmacophore model to screen and identify new drug-like compounds targeting ACK1, utilizing advanced techniques like molecular docking and dynamics simulations for evaluation.
- The study found three promising compounds that show better binding affinity to ACK1 compared to an existing inhibitor, suggesting these compounds could lead to the creation of selective ACK1 inhibitors for cancer therapy.
Article Abstract
Background: Activated Cdc42-associated kinase (ACK1) is essential for numerous cellular functions, such as growth, proliferation, and migration. ACK1 signaling occurs through multiple receptor tyrosine kinases; therefore, its inhibition can provide effective antiproliferative effects against multiple human cancers. A number of ACK1-specific inhibitors were designed and discovered in the previous decade, but none have reached the clinic. Potent and selective ACK1 inhibitors are urgently needed.
Methods: In the present investigation, the pharmacophore model (PM) was rationally built utilizing two distinct inhibitors coupled with ACK1 crystal structures. The generated PM was utilized to screen the drug-like database generated from the four chemical databases. The binding mode of pharmacophore-mapped compounds was predicted using a molecular docking (MD) study. The selected hit-protein complexes from MD were studied under all-atom molecular dynamics simulations (MDS) for 500 ns. The obtained trajectories were ranked using binding free energy calculations (ΔG kJ/mol) and Gibb's free energy landscape.
Results: Our results indicate that the three hit compounds displayed higher binding affinity toward ACK1 when compared with the known multi-kinase inhibitor dasatinib. The inter-molecular interactions of Hit1 and Hit3 reveal that compounds form desirable hydrogen bond interactions with gatekeeper T205, hinge region A208, and DFG motif D270. As a result, we anticipate that the proposed scaffolds might help in the design of promising selective ACK1 inhibitors.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9953130 | PMC |
| http://dx.doi.org/10.3390/biom13020217 | DOI Listing |
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