57339-66-9

Upstream product

• 1076-38-6 4-hydroxy[1]benzopyran-2-one 
• 2555-37-5 3-acetyl-4-hydroxychromen-2-one 
• 104-88-1 4-chlorobenzaldehyde 

Downstream Products

• 1642601-47-5 C₁₈H₁₃ClN₂O₃ 
• 1642601-50-0 3-[1-acetyl-5-(4-chlorophenyl)-4,5-dihydro-1Hpyrazol-3-yl]-4-hydroxy-2H-chromen-2-one 
• 1642601-44-2 4-(4-chlorophenyl)-1,2-dihydro-6-(4-hydroxy-2-oxo-2H-chromen-3-yl)-2-oxopyridine-3-carbonitrile 
• 858919-79-6 C₂₁H₁₂ClN₃O₃ 
• 129230-98-4 C₂₄H₁₆ClNO₃S 

Relevant academic research and scientific papers

Antileishmanial activity of novel indolyl-coumarin hybrids: Design, synthesis, biological evaluation, molecular docking study and in silico ADME prediction

In present work we have designed and synthesized total twelve novel 3-(3-(1H-indol-3-yl)-3-phenylpropanoyl)-4-hydroxy-2H-chromen-2-one derivatives 13(a-l) using Ho3+doped CoFe2O4nanoparticles as catalyst and evaluated for their potential antileishmanial and antioxidant activities. The compounds 13a, 13d and 13h were found to possess significant antileishmanial activity (IC50value = 95.50, 95.00 and 99.00 μg/mL, respectively) when compared to the standard sodium stibogluconate (IC50= 490.00 μg/mL). The compounds 13a (IC50= 12.40 μg/mL), 13d (IC50= 13.49 μg/mL), 13g (IC50= 13.24 μg/mL) and 13l (IC50= 13.74 μg/mL) had shown good antioxidant activity when compared with standards butylated hydroxy toluene (IC50= 16.5 μg/mL) and ascorbic acid (IC50= 12.8 μg/mL). After performing molecular docking studies, it was found that compounds 13a and 13d had potential to inhibit pteridine reductase 1 enzyme. In silico ADME pharmacokinetic parameters had shown promising results and none of the synthesized compounds had violated Lipinski's rule of five. Thus, suggesting that compounds from the present series can serve as important gateway for the design and development of new antileishmanial as well as antioxidant agent.

Synthesis of some new carbonitriles and pyrazole coumarin derivatives with potent antitumor and antimicrobial activities

3-Acetyl-4-hydroxycoumarin (2) was reacted with some aldehydes (4-chlorobenzaldehyde, 4-bromobenzaldehyde, 5-methylfurfural) to afford the chalcones (3a-c). Cyclization of these chalcones with malononitrile in the presence of ammonium acetate afforded pyridine carbonitriles (4a-c), while the cyclization reaction of chalcones (3a-c) with ethyl cyanoacetate afforded the oxopyridine carbonitriles (5a-c). On the other hand, the chalcones (3a-c) reacted with hydrazine hydrate in alcohol to yield pyrazoles (6a-c), but when the same reaction is carried out in the presence of acetic acid, the acetyl pyrazole derivatives (7a-c) were obtained. Finally, the reaction of the chalcones (3a-c) with phenylhydrazine afforded phenylpyrazole derivatives (8a-c). The structures of synthesized compounds were confirmed by their micro analysis and spectral data (IR, NMR and MS). Twelve samples were evaluated for the human breast adenocarcinoma cytotoxicity, three of them showed moderate activity, the rest of the samples showed weak cytotoxic activity (very high IC50), but for the hepatocarcinoma cell lines four samples showed weak cytotoxic effect, while the rest of the compounds showed very weak effect. For antimicrobial study, three compounds proved to be the most promising against tested bacterial organisms.

Design, synthesis and biological evaluation of some novel 3-cinnamoyl-4-hydroxy-2H-chromen-2-ones as antimalarial agents

A novel series of 3-cinnamoyl-4-hydroxy-2Hchromen-2-ones were designed, synthesized and screened for antiplasmodial activity. Eleven compounds of the series exhibited micromolar potency against chloroquine sensitive and chloroquine resistant strains. The most potent compound 4-hydroxy-3-(3-(4- nitrophenyl)acryloyl)-2Hchromen-2-one showed inhibitory potency (IC 50) of 3.1 and 4 μg/ml against chloroquine sensitive and chloroquine resistant strains, respectively. A structure activity relationship study was performed by correlating the effect of substituents with the antimalarial activity of the title compounds. The novel 3-cinnamoyl-4-hydroxy- 2H-chromen-2-ones reported here should be good lead for further development of antimalarial agents that can overcome resistance.

Evaluation of Structurally Diverse Benzoazepines Clubbed with Coumarins as Mycobacterium tuberculosis Agents

Tuberculosis caused by Mycobacterium tuberculosis remains a leading cause of mortality worldwide into 21st century. In continuation with our anti-tuberculosis research programme, in this work, we have prepared molecularly diverse coumarins clubbed with benzothiazepines as well as its aza-analogues-benzodiazepines by molecular hybridization. The resulting compounds were screened for their M. tuberculosis activity against H37Rv strains using microplate alamar blue assay. Among the designed diversity, the compounds 5k, 5n and 5o were found significantly active in primary anti-tuberculosis assay at minimum inhibitory concentration 50 values of 5k and 5o in level-2 screening were observed as >10μg/mL and 3.63μg/mL, respectively. Design and synthesis of more focused library and its three-dimensional quantitative structure activity relationship analysis are underway. In the present work, various coumarins clubbed with benzo(thi)diazepines were evaluated for their M. tuberculosis activity against H37Rv strains using MABA assay. The IC50 values of two analogs (compounds 5k and 5o) in level-2 screening were observed as >10μg/mL and 3.63μg/mL respectively.

Synthesis of some coumarinyl chalcones and their antiproliferative activity against breast cancer cell lines

A series of coumarinyl chalcones derivatives were synthesized and evaluated for their antiproliferative activities on three different breast cancer cell lines (MDA-MB231, MDA-MB468, MCF7) and one non-cancer breast epithelial cell line (184B5). The coumarinyl derivatives exhibited anticancer activity against breast cancer cell lines at a micromolar range. A structure-activity relationship (SAR) analysis was performed by studying the effect of substituents on their antiproliferative activities. One of the compound 3i bearing methoxy substitutions at the R1; R2 and R3 positions of the phenyl ring showed comparable potency to the reference drug cisplatin as well as a two-fold higher selectivity for the breast cancer cell lines than 184B5 cells.