83-13-6Relevant articles and documents
Adickes
, p. 654,655 (1936)
Evaluation of the Structure-Activity Relationship of Microtubule-Targeting 1,2,4-Triazolo[1,5- a]pyrimidines Identifies New Candidates for Neurodegenerative Tauopathies
Oukoloff, Killian,Nzou, Goodwell,Varricchio, Carmine,Lucero, Bobby,Alle, Thibault,Kovalevich, Jane,Monti, Ludovica,Cornec, Anne-Sophie,Yao, Yuemang,James, Michael J.,Trojanowski, John Q.,Lee, Virginia M.-Y.,Smith, Amos B.,Brancale, Andrea,Brunden, Kurt R.,Ballatore, Carlo
, p. 1073 - 1102 (2021/02/03)
Studies in tau and Aβ plaque transgenic mouse models demonstrated that brain-penetrant microtubule (MT)-stabilizing compounds, including the 1,2,4-triazolo[1,5-a]pyrimidines, hold promise as candidate treatments for Alzheimer's disease and related neurodegenerative tauopathies. Triazolopyrimidines have already been investigated as anticancer agents; however, the antimitotic activity of these compounds does not always correlate with stabilization of MTs in cells. Indeed, previous studies from our laboratories identified a critical role for the fragment linked at C6 in determining whether triazolopyrimidines promote MT stabilization or, conversely, disrupt MT integrity in cells. To further elucidate the structure-activity relationship (SAR) and to identify potentially improved MT-stabilizing candidates for neurodegenerative disease, a comprehensive set of 68 triazolopyrimidine congeners bearing structural modifications at C6 and/or C7 was designed, synthesized, and evaluated. These studies expand upon prior understanding of triazolopyrimidine SAR and enabled the identification of novel analogues that, relative to the existing lead, exhibit improved physicochemical properties, MT-stabilizing activity, and pharmacokinetics.
Aryltrifluoromethylative cyclization of unactivated alkenes by the use of PhICF3Cl under catalyst-free conditions
Guo, Jia,Xu, Cong,Liu, Xiaowei,Wang, Mang
supporting information, p. 2162 - 2168 (2019/02/27)
A concise and catalyst-free aryltrifluoromethylative cyclization of unactivated alkenes has been developed herein. The use of PhICF3Cl as a powerful trifluoromethylating agent allows easy transformations. A set of trifluoroethylated carbocycles and aza-hereocycles were efficiently synthesized in good yield and selectivity. A broad substrate scope, mild reaction conditions, and easy operation would make this method well-suited for applications.
Method for greenly synthesizing 5-hydroxy-5-alkyl disubstituted barbituric acid derivative by amine catalysis of air oxidation
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Paragraph 0025; 0027; 0029, (2019/01/07)
The invention relates to the field of oxidative synthesis, and in particular, relates to a 5-hydroxy-5-alkyl disubstituted barbituric acid derivative greenly synthesized by amine catalysis of air oxidation and a method thereof. The amine-catalyzed oxidation reaction of a 5-substituted 1,3-dimethylbarbituric acid derivative is studied; reaction catalysts and solvents are screened, hydroxylation ofalpha-C-H of 5-aryl or benzyl substituted barbituric acid compounds is found out to be realized through catalytic reaction under different conditions. The method has the following characteristics: (1)air is used as the source of hydroxyl functional groups, so the requirements of green development are met; (2) easily available and cheap alkali R3N rather than expensive metal catalysts is used; and(3) stoichiometric harmful phosphine compounds are prevented from being used as additives and reductants.