Abstract
BackgroundCancer is a major health threat especially in unindustrialized nations. It surpasses coronary diseases and takes the number one killer position as a result of different global wide influences. Among many breast cancer substrates, triple-negative breast cancer (TNBC) is particularly devastating because it rapidly metastasize to other parts of the body, with a high risk of earlier recession and mortality.ResultIn this research work, four (4) quantitative structure activity relationship (QSAR) models were developed using a series of quinazoline derivatives with activities against triple negative breast cancer cell line (MDA-MB231), model 1 was selected due to its statistical fitness with the following validation parameters: R2 = 0.875, Q2 = 0.837, R2 − Q2 = 0.038, Next test set = 5, and R2ext = 0.655. Molecular docking studies was performed for the quinazoline series as well as the reference drug (Gefitinib) and the active site of the epidermal growth factor receptor (EGFR) (pdb id = 3ug2). Eight compounds (6, 10, 13, 16, 17, 18, 19 and 20) were observed to have better docking score docking scores relative to Gefitinib. Compound number nineteen from the training set (pred pIC50 = 5.67, Residual = − 0.04 and MolDock score = − 123.238) was identified as the best compound since it has the best Moldock score and was excellently predicted by the selected model with least residual value, Hence was adopted as template for the design of Ten (10) new novel compounds with better activities and better docking scores. The inhibitive activities of the designed compounds were predicted by the selected model and most of them possess an improved activity relative to the template compound (19). The designed compounds were also redocked on to active pocket of the EGFR receptor and it was observed that they displayed better docking scores compared to the Template and the reference drug (Gefitinib) utilized in the design. Furthermore, the designed compounds were subjected to ADMET and drug-likeness studies using SWISSADME and pkCSM online web tools and they were observed to be pharmacologically active, easily synthesized and do not violate the Lipinski’s rule of five.ConclusionHence, the designed compounds can be employed as inhibitors of MDA-MB231 cell line after passing through in vivo and in vitro evaluation.
Highlights
Cancer is a major health threat especially in unindustrialized nations
The results of ADMET studies of the designed compounds illustrates that they have the potential of crossing blood brain barrier and central nervous system since for a molecule, blood–brain barrier (BBB), and the penetrability of central nervous system (CNS) approved values are > 0.3 to < − 1 log BB and > − 2 to < − 3 log PS respectively (Clark 2003)
In this research work four (4) quantitative structure activity relationship (QSAR) models were developed for a series of quinazoline derivatives with inhibitory activities against Triple Negative Breast
Summary
Cancer is a major health threat especially in unindustrialized nations It surpasses coronary diseases and takes the number one killer position as a result of different global wide influences. Among many breast cancer substrates, triple-negative breast cancer (TNBC) is devastating because it rapidly metastasize to other parts of the body, with a high risk of earlier recession and mortality. Cancer is a challenging problem for the global health community, and its increasing burden necessitates seeking novel and alternatives therapies (Rajabi et al 2021) It takes the number one killer position as a result of different global wide influences. Among many breast cancer substrates, triple-negative breast cancer (TNBC) is devastating because it rapidly disperse to other parts of the body, with a high risk of earlier recession and mortality (Hu et al 2012). At least one million females are identified with breast tumor and TNBC is accountable for close to 15–20% of the complete breast cancer identified (Jo et al 2019)
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