56946-45-3Relevant academic research and scientific papers
Potent acetylcholinesterase inhibitors: Synthesis, biological assay and docking study of nitro acridone derivatives
Parveen, Mehtab,Aslam, Afroz,Nami, Shahab A.A.,Malla, Ali Mohammed,Alam, Mahboob,Lee, Dong-Ung,Rehman, Sumbul,Silva, P.S. Pereira,Silva, M. Ramos
, p. 304 - 311 (2016/07/06)
The reaction of o-halobenzoic acid with aniline derivatives and their subsequent cyclization reaction yielded the acridone derivatives. The series of nitro acridone derivatives were prepared by Ullmann condensation in presence of copper as catalyst and we
Evaluation of synthetic acridones and 4-quinolinones as potent inhibitors of cathepsins L and v
Marques, Emerson F.,Bueno, Mauro A.,Duarte, Patricia D.,Silva, Larissa R.S.P.,Martinelli, Ariani M.,Dos Santos, Caio Y.,Severino, Richele P.,Broemme, Dieter,Vieira, Paulo C.,Correa, Arlene G.
, p. 10 - 21 (2012/08/28)
Cathepsins, also known as lysosomal cysteine peptidases, are members of the papain-like peptidase family, involved in different physiological processes. In addition, cathepsins are implicated in many pathological conditions. This report describes the synthesis and evaluation of a series of N-arylanthranilic acids, acridones, and 4-quinolinones as inhibitors of cathepsins V and L. The kinetics revealed that compounds of the classes of acridones are reversible competitive inhibitors of the target enzyme with affinities in the low micromolar range. They represent promising lead candidates for the discovery of novel competitive cathepsin inhibitors with enhanced selectivity and potency. On the other hand, 4-quinolinones were noncompetitive inhibitors and N-arylanthranilic acids were uncompetitive inhibitors.
