6333-15-9Relevant articles and documents
Synthesis and structure-activity relationships of small-molecular di-basic esters, amides and carbamates as flaviviral protease inhibitors
Sundermann, Tom R.,Benzin, Clarissa V.,Dra?i?, Tonko,Klein, Christian D.
, p. 187 - 194 (2019/05/21)
Inhibitors of the flaviviral serine proteases, which are crucial for the replication of dengue and West-Nile virus, have attracted much attention over the last years. A dibasic 4-guanidinobenzoate was previously reported as inhibitor of the dengue protease with potency in the low-micromolar range. In the present study, this lead structure was modified with the intent to explore structure-activity relationships and obtain compounds with increased drug-likeness. Substitutions of the guanidine moieties, the aromatic rings, and the ester with other functionalities were evaluated. All changes were accompanied by a loss of inhibition, indicating that the 4-guanidinobenzoate scaffold is an essential element of this compound class. Further experiments indicate that the target recognition of the compounds involves the reversible formation of a covalent adduct.
Preparation method of electronic-grade 4,4'-diaminobenzanilide
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Paragraph 0013; 0014; 0026; 0027, (2018/08/28)
The invention discloses a preparation method of electronic-grade 4,4'-diaminobenzanilide. The preparation method comprises the following steps: 1, 4,4'-dinitrobenzanilide is prepared from 4-nitroaniline and 4-nitrobenzoyl chloride through a reaction; 2, crude 4,4'-diaminobenzanilide is obtained from 4,4'-dinitrobenzanilide through catalytic hydrogenation; 3, crude 4,4'-diaminobenzanilide obtainedin step 2, a recrystallization solvent and activated carbon are added to an autoclave simultaneously, recrystallization and activated carbon decoloration are performed simultaneously at 100-150 DEG Cunder nitrogen protection, and electronic-grade 4,4'-diaminobenzanilide is obtained. The appropriate recrystallization solvent is selected and recrystallization and activated carbon decoloration are performed simultaneously, so that electronic-grade 4,4'-diaminobenzanilide with high purity and low ion content is obtained finally, and special requirements of high-performance electronics industry are met.
Design, synthesis and biological evaluation of 4-Amino-N-(4-aminophenyl) benzamide analogues of quinoline-based SGI-1027 as inhibitors of DNA methylation
Rilova, Elodie,Erdmann, Alexandre,Gros, Christina,Masson, Veronique,Aussagues, Yannick,Poughon-Cassabois, Valerie,Rajavelu, Arumugam,Jeltsch, Albert,Menon, Yoann,Novosad, Natacha,Gregoire, Jean-Marc,Vispe, Stephane,Schambel, Philippe,Ausseil, Frederic,Sautel, Francois,Arimondo, Paola B.,Cantagrel, Frederic
, p. 590 - 601 (2014/03/21)
Quinoline derivative SGI-1027 (N-(4-(2-amino-6-methylpyrimidin-4-ylamino) phenyl)-4-(quinolin-4-ylamino)benzamide) was first described in 2009 as a potent inhibitor of DNA methyltransferase (DNMT) 1, 3A and 3B. Based on molecular modeling studies, performed using the crystal structure of Haemophilus haemolyticus cytosine-5 DNA methyltransferase (MHhaI C5 DNMT), which suggested that the quinoline and the aminopyridimine moieties of SGI-1027 are important for interaction with the substrates and protein, we designed and synthesized 25 derivatives. Among them, four compounds - namely the derivatives 12, 16, 31 and 32 - exhibited activities comparable to that of the parent compound. Further evaluation revealed that these compounds were more potent against human DNMT3A than against human DNMT1 and induced the re-expression of a reporter gene, controlled by a methylated cytomegalovirus (CMV) promoter, in leukemia KG-1 cells. These compounds possessed cytotoxicity against leukemia KG-1 cells in the micromolar range, comparable with the cytotoxicity of the reference compound, SGI-1027. Structure-activity relationships were elucidated from the results. First, the presence of a methylene or carbonyl group to conjugate the quinoline moiety decreased the activity. Second, the size and nature of the aromatic or heterocycle subsitutents effects inhibition activity: tricyclic moieties, such as acridine, were found to decrease activity, while bicyclic substituents, such as quinoline, were well tolerated. The best combination was found to be a bicyclic substituent on one side of the compound, and a one-ring moiety on the other side. Finally, the orientation of the central amide bond was found to have little effect on the biological activity. This study provides new insights in to the structure-activity relationships of SGI-1027 and its derivative. Ep-(igenet)-ic! Guided by modeling studies, derivatives of the known DNA methyltransferase (DNMT) inhibitor SGI-1027 were designed, synthesized and evaluated. Structure-activity relationships were derived from the results, leading to the identification of derivatives with improved potency and potential for further development.