18790-82-4Relevant articles and documents
Synthesis and evaluation of novel F-18-labeled pyrimidine derivatives: Potential FAK inhibitors and PET imaging agents for cancer detection
Wang, Dawei,Fang, Yu,Wang, Hang,Xu, Xingyu,Liu, Jianping,Zhang, Huabei
, p. 22388 - 22399 (2017)
Based on computer-assisted drug design, a series of novel pyrimidine derivatives was successfully synthesized and characterized by 1H NMR, 13C HNMR, and MS spectra. All the new compounds were evaluated for their activity against focal adhesion kinase and showed low IC50 values in comparison with control drugs. In particular, for compound 8i, its IC50 value was 0.060 μM, suggesting its advantage as a focal adhesion kinase inhibitor. To evaluate the potentiality of these compounds as PET imaging agents in cancer detection, compounds 8a, 8c, 8h, and 8i were successively labeled with 18F. The four 18F-labeled pyrimidine derivatives showed appropriate log P values and high stability in physiological saline and mouse plasma. Noticeably, compound [18F]-8a with a 4-methoxyl group at the benzene ring exhibited good in vivo biodistribution data in mice bearing the S180 tumor, which promoted a further microPET imaging study of compound [18F]-8a. The microPET image of [18F-8a] administered into the S180 tumor-bearing mice acquired at 60 min post-injection illustrated that the uptake in S180 tumor was obvious. These results suggested that compound [18F]-8a might be a new probe for PET tumor imaging.
Clipping and stoppering anion templated synthesis of a [2]rotaxane host system
Li, Yitong,Mullen, Kathleen M.,Sardinha, Joao,Felix, Vitor,Beer, Paul D.
supporting information; experimental part, p. 12180 - 12190 (2012/03/10)
A new [2]rotaxane host system containing nitro-isophthalamide macrocycle and polyether functionalised pyridinium axle components is prepared via clipping and stoppering synthetic methodologies using chloride anion templation. After removing the chloride anion template, 1H NMR titration experiments reveal the unique interlocked host cavity to be highly selective for binding chloride and bromide in preference to basic oxoanions in competitive aqueous solvent mixtures. The rotaxane host system proved to be a superior anion complexant in comparison to the individual macrocycle and axle components. The anion binding affinity of the novel rotaxane is also investigated via molecular dynamics simulations and in general the structural data obtained corroborates the experimental solution anion recognition behaviour.