286371-64-0Relevant articles and documents
Synthesis, biological evaluation and molecular docking studies of novel 1,2,3-triazole-quinazolines as antiproliferative agents displaying ERK inhibitory activity
Nunes, Paulo Sérgio Gon?alves,da Silva, Gabriel,Nascimento, Sofia,Mantoani, Susimaire Pedersoli,de Andrade, Peterson,Bernardes, Emerson Soares,Kawano, Daniel Fábio,Leopoldino, Andreia Machado,Carvalho, Ivone
, (2021/05/26)
ERK1/2 inhibitors have attracted special attention concerning the ability of circumventing cases of innate or log-term acquired resistance to RAF and MEK kinase inhibitors. Based on the 4-aminoquinazoline pharmacophore of kinases, herein we describe the synthesis of 4-aminoquinazoline derivatives bearing a 1,2,3-triazole stable core to bridge different aromatic and heterocyclic rings using copper-catalysed azide-alkyne cycloaddition reaction (CuAAC) as a Click Chemistry strategy. The initial screening of twelve derivatives in tumoral cells (CAL-27, HN13, HGC-27, and BT-20) revealed that the most active in BT-20 cells (25a, IC50 24.6 μM and a SI of 3.25) contains a more polar side chain (sulfone). Furthermore, compound 25a promoted a significant release of lactate dehydrogenase (LDH), suggesting the induction of cell death by necrosis. In addition, this compound induced G0/G1 stalling in BT-20 cells, which was accompanied by a decrease in the S phase. Western blot analysis of the levels of p-STAT3, p-ERK, PARP, p53 and cleaved caspase-3 revealed p-ERK1/2 and p-STA3 were drastically decreased in BT-20 cells under 25a incubation, suggesting the involvement of these two kinases in the mechanisms underlying 25a-induced cell cycle arrest, besides loss of proliferation and viability of the breast cancer cell. Molecular docking simulations using the ERK-ulixertinib crystallographic complex showed compound 25a could potentially compete with ATP for binding to ERK in a slightly higher affinity than the reference ERK1/2 inhibitor. Further in silico analyses showed comparable toxicity and pharmacokinetic profiles for compound 25a in relation to ulixertinib.
Novel amide analogues of quinazoline carboxylate display selective antiproliferative activity and potent EGFR inhibition
Malhotra, Anjleena,Bansal, Ranju,Halim, Clarissa Esmeralda,Yap, Celestial T.,Sethi, Gautam,Kumar, Alan Prem,Bishnoi, Mahendra,Yadav, Kamalendra
, p. 2112 - 2122 (2020/09/23)
In the present study, a novel series of quinazoline derivatives is developed for cancer therapy. All the synthesised analogues were evaluated against a panel of 60 human cancer cell lines for the antiproliferative activity. Significant and selective growth inhibition of several solid tumour cell lines such as NCI-H322M, NCI-H522 (non-small cell lung cancer), IGROV1, SK-OV-3 (ovarian cancer), TK-10 (renal cancer) and MDA-MB-468 (breast cancer) was observed. Further, all the new amide analogues strongly inhibited EGFR in low nanomolar range with morpholino quinazoline 10 producing activity (IC50 = 6.12 nM) comparable to standard drugs erlotinib and gefitinib. In addition, western blot analysis depicted inhibition of phosphorylation of EGFR by compounds 10 and 11 in MDA-MB-468 cells at 10 μM. Molecular docking studies showed the strong binding interactions with the active site of the EGFR protein. The current investigation could be extremely helpful for the development of newer therapeutically useful quinazoline based molecules for cancer therapy.
A simple and highly efficient process for synthesis of Gefitinib and its intermediate
Kumar, Neeraj,Chowdhary, Anil,Gudaparthi, Omprakash,Patel, Nilesh G.,Soni, Sanjay K.,Sharma, Pradeep
, p. 1269 - 1274 (2014/12/10)
A highly efficient one pot conversion of 4-methoxy-3-benzyloxy-6-nitro benzoate to 6-benzoyloxy-7-methoxy quinazoline-4-one using Fe/acetic acid and formamidine acetate followed by debenzylation of 4-(3-chloro-4-flurophenylamino)-6-benzoyloxy-7-methoxy quinazoline using methanesulfonic acid in chloroform is described. Additionally the desmethyl impurity formation is controlled using oxalyl chloride and DIPEA.