45434-02-4Relevant articles and documents
PYRIDOPYRIMIDINE COMPOUNDS ACTING AS MTORC 1/2 DOUBLE-KINASE INHIBITORS
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Paragraph 0384-0386, (2020/11/30)
Disclosed are a series of pyridopyrimidine compounds and a use of same in the preparation of drugs associated with mTORC 1/2 dual complex inhibitors, and specifically disclosed is a use of the compounds as shown in formula (IV), tautomers thereof or pharmaceutically acceptable salts thereof in the preparation of drugs associated with mTORC 1/2 dual complex inhibitors.
A new synthesis of bicyclic N,O- and N,S-enaminals by the anionic cyclization of alk-4-ynals with amino alcohols and amino thiols
Gvozdev,Shavrin,Nefedov
, p. 409 - 415 (2015/02/02)
A reaction of alk-4-ynals with aliphatic amino alcohols or 2-aminoethanethiol in the system DMSO - KOH gives bicyclic N,O- and N,S-enaminals: 6-methylidenehexahydro-2H-pyrrolo[2,1-b][1,3]oxazines, 5-methylidenehexahydropyrrolo[2,1-b]oxazoles, or 5-methyl-
The first potent inhibitors for human glutaminyl cyclase: Synthesis and structure-activity relationship
Buchholz, Mirko,Heiser, Ulrich,Schilling, Stephan,Niestroj, André J.,Zunkel, Katrin,Demuth, Hans-Ulrich
, p. 664 - 677 (2007/10/03)
The first effective inhibitors for human glutaminyl cyclase (QC) are described. The structures are developed by applying a ligand-based optimization approach starting from imidazole. Screening of derivatives of that heterocycle led to compounds of the imidazol-1-yl-alkyl thiourea type as a lead scaffold. A library of thiourea derivatives was synthesized, resulting in an inhibitory improvement by 2 orders of magnitude, leading to 1-(3-(1H-imidazol-1-yl)propyl)- 3-(3,4-dimethoxyphenyl)thiourea as a potent inhibitor. Systematic exploitation of the scaffold revealed a strong impact on the inhibitory efficacy and resulted in the development of imidazole-propyl-thioamides as another new class of potent inhibitors. A flexible alignment of the most potent compounds of the thioamide and thiourea class and a QC substrate revealed a good match of characteristic features of the molecules, which suggests a similar binding mode of both inhibitors and the substrate to the active site of QC.