39139-62-3Relevant academic research and scientific papers
Novel non-peptidic small molecule inhibitors of secreted aspartic protease 2 (SAP2) for the treatment of resistant fungal infections
Dong, Guoqiang,Liu, Yang,Wu, Ying,Tu, Jie,Chen, Shuqiang,Liu, Na,Sheng, Chunquan
supporting information, p. 13535 - 13538 (2019/01/05)
Targeting secreted aspartic protease 2 (SAP2), a kind of virulence factor, represents a new strategy for antifungal drug discovery. In this report, the first-generation of small molecule SAP2 inhibitors was rationally designed and optimized using a structure-based approach. In particular, inhibitor 23h was highly potent and selective and showed good antifungal potency for the treatment of resistant Candida albicans infections.
An Environment-friendly Synthesis of 2,3-Disubstituted-2-iminothiazoline-4-ones
Meng, Ge,Zheng, Meilin,Dong, Mengshu,Wang, Mei,Zheng, Aqun,Guo, Zengjun
, p. 588 - 594 (2016/04/19)
A series of 2,3-substituted-2-iminothiazoline-4-ones derivatives have been synthesized via an improved method including an auto-catalyzed reaction. This method avoided using any extra catalyst except for the reaction material. This method has been successful in both the aromatic substituted 2-iminothiazolines and the alkyl substituted 2-iminothiazolines. The special product with a hydroxyl group on the 2-iminogroup of 1,3-thiazoline-4-ones has also been obtained unexpectedly. The possible mechanism has been proposed for the special process of dealkylation and hydroxylation. This method offered a special way to afford the 2-hydroxyimino-substituted thiazoline-4-one derivatives in an efficient and eco-friendly way. The mechanism of the transformation under acid condition has also been proposed.
Design and synthesis of new potent PTP1B inhibitors with the skeleton of 2-substituted imino-3-substituted-5-heteroarylidene-1,3-thiazolidine-4-one: Part I
Meng, Ge,Zheng, Meilin,Wang, Mei,Tong, Jing,Ge, Weijuan,Zhang, Jiehe,Zheng, Aqun,Li, Jingya,Gao, Lixin,Li, Jia
supporting information, p. 756 - 769 (2016/08/18)
A new series of 2-substituted imino-3-substituted-5- heteroarylidene-1,3-thiazolidine-4-ones as the potent bidentate PTP1B inhibitors were designed and synthesized in this paper. All of the new compounds were characterized and identified by spectra analysis. The biological screening test against PTP1B showed that some of these compounds have the positive inhibitory activity against PTP1B. The activity of the compounds with 5-substituted pyrrole on 5-postion of 1,3-thiazolidine-4-one are more potent than that of those compounds with 5-substituted pyridine group. Compound 14b, 14h and 14i showed IC50values of 8.66?μM, 6.83?μM and 6.09?μM against PTP1B, respectively. Docking analysis of these active compounds with PTP1B showed the possible interaction modes of these biheterocyclic compounds with the active sites of PTP1B. The inhibition tests against oncogenetic CDC25B were also conducted on this set of compounds to evaluate the selectivity and possible anti-neoplastic activity. Compound 14b also showed the lowest IC50of 1.66?μM against CDC25B among all the possible inhibitors, including 14g, 14h, 14i and 15c. Some pharmacological parameters including VolSurf, steric and electric descriptors of all the compounds were calculated to give some hints about the relative relationship with the biological activity. The result of this study might give some light on designing the possible anti-cancer drugs targeting at phosphatases. The most active compound 14i might be used as the lead compound for further structure modification of the new low molecular weight PTP1B inhibitors with the N-containing heterocyclic skeleton.
Thiazolidione derivatives as novel antibiofilm agents: Design, synthesis, biological evaluation, and structure-activity relationships
Pan, Bin,Huang, Renzheng,Zheng, Likang,Chen, Chen,Han, Shiqing,Qu, Di,Zhu, Mingli,Wei, Ping
scheme or table, p. 819 - 824 (2011/04/16)
Rational designed novel thiazolidiones were synthesized and evaluated for antibiofilm activity. The active derivatives were not only potent inhibitors of Staphylococcus epidermidis biofilm growth but also efficient antibacterial agents. 3f showed 4-fold higher activity (6.25 μM) in the biofilms dispersal assay and significantly higher antibacterial activity (MIC 3.125 μM) in comparison to the 3-(5-((6- (ethoxycarbonyl)-5-(benzo[1,3]dioxol-5-yl)-3-oxo-7- phenyl- thiazolo[3,2-a]pyrimidin-2(5H)-ylidene)methyl)furan-2-yl)benzoic acid (1).
Design, synthesis, and antibiofilm activity of 2-arylimino-3-aryl-thiazolidine-4-ones
Pan, Bin,Huang, Ren-Zheng,Han, Shi-Qing,Qu, Di,Zhu, Ming-Li,Wei, Ping,Ying, Han-Jie
scheme or table, p. 2461 - 2464 (2010/07/16)
A series of novel 2-arylimino-3-aryl-thiazolidine-4-ones was designed, synthesized and tested for in vitro antibiofilm activity against Staphylococcus epidermidis. Among them tested, some compounds with carboxylic acid groups showed good antibiofilm activity. The antibiofilm concentration of 1x was 6.25 μM. The structure-activity relationships revealed that incorporation of 2-phenylfuran moiety could greatly enhance antibiofilm activity of thiazolidine-4-one.
