7326-75-2Relevant academic research and scientific papers
Design and synthesis of newer N-benzimidazol-2yl benzamide analogues as allosteric activators of human glucokinase
Singh, Sukhbir,Arora, Sandeep,Dhalio, Ervon,Sharma, Neelam,Arora, Kunal,Grewal, Ajmer Singh
, p. 760 - 770 (2021/01/20)
Allosteric activators of human glucokinase (GK) had revealed significant hypoglycemic effects for therapy of type-2 diabetes (T2D) in animal as well as human models. Some newer N-benzimidazol-2yl substituted benzamide analogues were prepared and assessed for activation of GK accompanied by molecular docking investigations for predicting the bonding interactions of these derivatives with the residues in allosteric site of GK protein. Amongst the derivatives synthesized, compounds 2 and 7 strongly increased catalytic action of GK (GK activation fold >2.0 in comparison to control) in vitro. The results of in-vitro testing were supported by the molecular docking investigations of these analogues with GK protein’s allosteric site residues (showed appreciable H-bond interactions with Arg63 residue of GK). Derivatives investigated in present study afforded few lead compounds for the discovery of harmless and strong allosteric GK activating compounds for treating T2D.
COMPOUNDS, IN PARTICULAR FOR USE IN THE TREATMENT OF A DISEASE OR CONDITION FOR WHICH A BROMODOMAIN INHIBITOR IS INDICATED
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Page/Page column 50, (2016/01/25)
The invention relates to a compound for use in the treatment of a disease or condition for which a bromodomain inhibitor is indicated characterized by a general formula (1) and a compound according to formula (3).
N'-Alkylaminosulfonyl Analogues of 6-Fluorobenzylideneindolinones with Desirable Physicochemical Profiles and Potent Growth Inhibitory Activities on Hepatocellular Carcinoma
Chen, Xiao,Yang, Tianming,Deivasigamani, Amudha,Shanmugam, Muthu K.,Hui, Kam-Man,Sethi, Gautam,Go, Mei-Lin
supporting information, p. 1548 - 1558 (2015/09/07)
The benzylideneindolinone 6-chloro-3-(3′-trifluoromethylbenzylidene)-1,3-dihydroindol-2-one (4) was reported to exhibit potent and selective growth inhibitory effects on hepatocellular carcinoma (HCC). Corroborative evidence supported multi-receptor tyrosine kinase (RTK) inhibition as a possible mode of action. However, the poor physicochemical properties of 4 limited its furtherance as a lead compound. In this study, the modification of 4 was investigated with the aim of improving its potency and physicochemical profile. The 6-fluorobenzylideneindolinone 3-12 bearing a 3′-N-propylaminosulfonyl substituent was found to be a promising substitute. Compound 3-12 [6-fluoro-3-(3′-N-propylaminosulfonylbenzylidene)-1,3-dihydroindol-2-one] was found to be tenfold more soluble than 4 and to have sub-micromolar growth inhibitory activities on HCC cells. It is apoptogenic and inhibits the phosphorylation of several RTKs in HuH7, of which the inhibition of FGFR4 and HER3 are prominent. Compound 3-12 decreased the tumor load in a physiologically relevant orthotopic HCC xenograft murine model. Structure-activity relationships support pivotal roles for the fluoro and N′-propylaminosulfonyl moieties in enhancing cell-based activity and moderating the physicochemical profile (solubility, permeability) of 3-12.
BENZYLIDENE-INDOLINONE COMPOUNDS AND THEIR MEDICAL USE
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Paragraph 0244-0245, (2013/03/26)
Compounds of general formula I: wherein R1a, R1b, R2, R3a, R3b and X are as defined herein are tyrosine kinase inhibitors and are useful for the treatment of various diseases and conditions, for examp
