Abstract
BackgroundV600E-BRAF is a major protein target involved in various types of human cancers. However, the acquired resistance of the V600E-BRAF kinase to the vemurafenib and the side effects of other identified drugs initiate the search for efficient inhibitors. In the current paper, virtual docking screening combined with drug likeness and ADMET properties predictions were jointly applied to evaluate potent 2-(1H-imidazol-2-yl) pyridines as V600E-BRAF kinase inhibitors.ResultsMost of the studied compounds showed better docking scores and favorable interactions with theiV600E-BRAF target. Among the screened compounds, the two most potent (14 and 30) with good rerank scores (−124.079 and − 122.290) emerged as the most effective, and potent V600E-BRAF kinase inhibitors which performed better than vemurafenib (−116.174), an approved V600E-BRAF kinase inhibitor. Thus, the docking studies exhibited that these compounds have shown competing inhibition of V600E-BRAF kinase with vemurafenib at the active site and revealed better pharmacological properties based on Lipinski’s and Veber’s drug-likeness rules for oral bioavailability and ADMET properties.ConclusionThe docking result, drug-likeness rules, and ADMET parameters identified compounds (14 and 30) as the best hits against V600E-BRAF kinase with better pharmacological properties. This suggests that these compounds may be developed as potent V600E-BRAF inhibitors.
Highlights
V600E-BRAF is a major protein target involved in various types of human cancers
Pathological studies revealed that the activated forms of the BRAF target is present in about 8% of all human cancers [2] and are often connected with melanoma (66%) [3]
The docking result of the studied compounds against V600E-BRAF (PDB ID: 3OG7), exhibited that these compounds were docked at the binding site of the V600EBRAF receptor with a favorable MolDock score and rerank score compared to vemurafenib (Table 2)
Summary
V600E-BRAF is a major protein target involved in various types of human cancers. the acquired resistance of the V600E-BRAF kinase to the vemurafenib and the side effects of other identified drugs initiate the search for efficient inhibitors. What is important is that 90% of the observed BRAF mutations are that of V600E, which intensifies the kinase activity, and incidentally stimulates the signaling at notable high levels [4] In this regard, V600E-BRAF kinase has been a target of concern for therapeutic intervention targeting which has verified to be the main success in the area of melanoma. V600E-BRAF kinase has been a target of concern for therapeutic intervention targeting which has verified to be the main success in the area of melanoma Notwithstanding these achievements, resistance development of most patients to vemurafenib [7, 8] and high rates of squamous cell carcinomas attributed to the known inhibitors and keratoacanthoma have been reported [6, 9].
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