139481-72-4Relevant articles and documents
Development of novel benzimidazole-derived neddylation inhibitors for suppressing tumor growth in vitro and in vivo
Chen, Xin,Yang, Xi,Mao, Fei,Wei, Jinlian,Xu, Yixiang,Li, Baoli,Zhu, Jin,Ni, Shuaishuai,Jia, Lijun,Li, Jian
, (2021)
Ubiquitin-like protein neddylation is overactivated in various human cancers and correlates with disease progression, and targeting this pathway represents a valuable therapeutic strategy. Our previous work disclosed an antihypertensive agent, candesartan cilexetic (CDC), serves as a novel neddylation inhibitor for suppressing tumor growth by targeting Nedd8-activating enzyme (NAE). In this study, 42 benzimidazole derivatives were designed and synthesized based on lead compound CDC to improve the neddylation inhibition and anticancer efficacy. Optimal benzimidazole-derived 35 displayed superior neddylation inhibition in enzyme assay compared to CDC (IC50 = 5.51 μM vs 16.43 μM), along with promising target inhibitory activity and killing selectivity in cancer cell. The results of cellular mechanism research combined with tumor growth suppression in human lung cancer cell A549 in vivo, accompanied with docking model, revealed that 35 has the potential to be developed as a promising neddylation inhibitor for anticancer therapy.
A method for preparing ester
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Paragraph 0005; 0054; 0055; 0076; 0090, (2018/05/24)
The invention provides a preparation method of candesartan cilexetil. The preparation method comprises steps I-IV. The step I concretely comprises the following substeps of adding candesartan and dichloromethane in a reaction container; slowly and dropwise adding triethylamine at the temperature of 10-15 DEG C; raising the temperature of a reaction system to 21-25 DEG C after dropwise adding of the triethylamine is fnished; adding triphenylchloromethane in batches; reacting for 3-4 hours; adding 0.1 mol/L HCl at one step after reaction is complete and adjusting pH (potential of hydrogen) to be 5-6; then slowly and dropwise adding 9 mol/L HCl and adjusting pH to be 2-3; leaving standstill; separating a water layer and an organic layer; adding saturated salt water in the organic layer to wash the organic layer; leaving standstill to achieve a layering effect; separating out the organic layer; performing decompress concentration on the organic layer to remove the dichloromethane; adding absolute ethyl alcohol in residual viscous substances; raising temperature to 45-50 DEG C; stirring for 3 hours; stopping heating after a large amount of white solids are separated out; reducing to room temperature; performing suction filtration; washing filter cakes with ethyl alcohol; and drying to obtain trityl candesartan.
PROCESS FOR PREPARATION OF CANDESART AN CILEXETIL SUBSTANTIALLY FREE OF DES-CANDESARTAN CILEXETIL IMPURITY
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, (2011/12/04)
The present invention provides a process for preparation of candeartan cilexetil substantially free of 2,3-dihydro-2-oxo-3-[[2'-(2H-tetrazol-5-yl)[l,l-biphenyl]-4- yl]methyl]-l-[[(cyclohexyloxy)carbonyl]oxy]ethylester-lH-benzimidazole-7- carboxylate (des-candesartan cilexetil) impurity.