13431-34-0Relevant articles and documents
A hydrazine-based thiocarbamide probe for colorimetric and turn-on fluorometric detection of PO43- and AsO33- in semi-aqueous medium
Purkait, Rakesh,Maity, Suvendu,Sinha, Chittaranjan
, p. 6236 - 6246 (2018)
2,6-Bis(N-ethylhydrazonethiocarbamide)-4-methyl-phenol (HTP) recognizes PO43- and AsO33- and is effective as a colorimetric and turn-on fluoremetric sensor in the presence of a large number of biologically impor
A novel 8-nitro quinoline-thiosemicarbazone analogues induces G1/S & G2/M phase cell cycle arrest and apoptosis through ROS mediated mitochondrial pathway
Arasakumar, Thangaraj,Athimoolam, Shunmuganarayanan,Mohan, Palathurai Subramaniam,Saravanan, Arjunan,Shyamsivappan, Selvaraj,Suresh, Thangaraj,Vivek, Raju
, (2020)
A series of novel 8-nitro quinoline-based thiosemicarbazone analogues were synthesized and characterized by various spectroscopic and single crystal X-ray analyses. The potent antitumor effects of synthesized compounds towards the cancer cells were evaluated by MTT assay. Amongst, the compound 3a exhibited the highest inhibitory activity and the compounds 3f and 3b were also showed significant activity. The molecular mechanistic studies of cell death have demonstrated that the treated potent compound 3a induced G1/S & G2/M phase cell cycle arrest and induced apoptosis via mitochondrial dysfunction and increased the production of cytotoxic ROS levels. The RT-PCR gene expression analysis revealed that the cell death induced by activation of caspase-3 dependent intrinsic apoptotic signaling pathway. Further, the molecular binding affinity of compounds with estrogen receptor alpha was calculated by molecular docking studies. Thus, novel 8-nitro quinoline-thiosemicarbazone analogues provide a unique tool for breast cancer therapeutic tactics.
Diaryl-substituted thiosemicarbazone: A potent scaffold for the development of New Delhi metallo-β-lactamase-1 inhibitors
Li, Jia-Qi,Sun, Le-Yun,Jiang, Zhihui,Chen, Cheng,Gao, Han,Chigan, Jia-Zhu,Ding, Huan-Huan,Yang, Ke-Wu
, (2020/12/30)
The superbug infection caused by New Delhi metallo-β-lactamase (NDM-1) has become an emerging public health threat. Inhibition of NDM-1 has proven challenging due to its shuttling between pathogenic bacteria. A potent scaffold, diaryl-substituted thiosemicarbazone, was constructed and assayed with metallo-β-lactamases (MβLs). The obtained twenty-six molecules specifically inhibited NDM-1 with IC50 0.038–34.7 μM range (except 1e, 2e, and 3d), and 1c is the most potent inhibitor (IC50 = 0.038 μM). The structure-activity relationship of synthetic thiosemicarbazones revealed that the diaryl-substitutes, specifically 2-pyridine and 2-hydroxylbenzene improved inhibitory activities of the inhibitors. The thiosemicarbazones exhibited synergistic antimycobacterial actions against E. coli-NDM-1, resulted a 2–512-fold reduction in MIC of meropenem, while 1c restored 16–256-, 16-, and 2-fold activity of the antibiotic on clinical isolates ECs, K. pneumonia and P. aeruginosa harboring NDM-1, respectively. Also, mice experiments showed that 1c had a synergistic antibacterial ability with meropenem, reduced the bacterial load clinical isolate EC08 in the spleen and liver. This work provided a highly promising scaffold for the development of NDM-1 inhibitors.
Insight on a new indolinone derivative as an orally bioavailable lead compound against renal cell carcinoma
Fouad, Marwa A.,Lotfy, Raghda A.,Mahmoud, Walaa R.,Zaki, Mayssoune Y.
, (2021/06/15)
A series of novel 3-indolinone-thiazolidinones and oxazolidinones 4a-k was synthesized via molecular hybridization approach and sequentially evaluated to explore its cytotoxic activity. The cytotoxicity screening pointed toward the N-cyclohexyl thiazolidinone derivative 4f that revealed promising renal cytotoxicity against CAKI-1 and UO-31 renal cancer cell lines with IC50 values 4.74 and 3.99 μM, respectively, which were comparable to those of sunitinib along with good safety threshold against normal renal cells. Further emphasis on compound 4f renal cytotoxicity was achieved via different enzyme assays and CAKI-1 and UO-31 cell cycle analysis. The results were supported by in silico studies to explore its physicochemical, pharmacokinetic and drug-likeness properties. Finally, compound 4f was subjected to an in vivo pharmacokinetic study through two different routes of administration showing excellent oral bioavailability. This research represents compound 4f as a promising candidate against renal cell carcinoma.