97798-40-8Relevant articles and documents
Benzoic acid-derived nitrones: A new class of potential acetylcholinesterase inhibitors and neuroprotective agents
Oliveira, Catarina,Bagetta, Donatella,Cagide, Fernando,Teixeira, José,Amorim, Ricardo,Silva, Tiago,Garrido, Jorge,Remi?o, Fernando,Uriarte, Eugenio,Oliveira, Paulo J.,Alcaro, Stefano,Ortuso, Francesco,Borges, Fernanda
, p. 116 - 129 (2019)
The discovery of new chemical entities endowed with potent and selective acetylcholinesterase (AChE)and/or butyrylcholinesterase (BChE)inhibitory activity is still a relevant subject for Alzheimer's disease therapy. Therefore, a small library of benzoic b
Chemoselective reductive nucleophilic addition to tertiary amides, secondary amides, and N-methoxyamides
Nakajima, Minami,Oda, Yukiko,Wada, Takamasa,Minamikawa, Ryo,Shirokane, Kenji,Sato, Takaaki,Chida, Noritaka
supporting information, p. 17565 - 17571 (2015/02/19)
As the complexity of targeted molecules increases in modern organic synthesis, chemoselectivity is recognized as an important factor in the development of new methodologies. Chemoselective nucleophilic addition to amide car-bonyl centers is a challenge because classical methods require harsh reaction conditions to overcome the poor elec-trophilicity of the amide carbonyl group. We have successfully developed a reductive nucleophilic addition of mild nu-cleophiles to tertiary amides, secondary amides, and N-methoxyamides that uses the Schwartz reagent [Cp2ZrHCl]. The reaction took place in a highly chemoselective fashion in the presence of a variety of sensitive functional groups, such as methyl esters, which conventionally require protection prior to nucleophilic addition. The reaction will be applicable to the concise synthesis of complex natural alkaloids from readily available amide groups.
Novel inhibitors of human histone deacetylases: Design, synthesis, enzyme inhibition, and cancer cell growth inhibition of SAHA-based non-hydroxamates
Suzuki, Takayoshi,Nagano, Yuki,Kouketsu, Akiyasu,Matsuura, Azusa,Maruyama, Sakiko,Kurotaki, Mineko,Nakagawa, Hidehiko,Miyata, Naoki
, p. 1019 - 1032 (2007/10/03)
To find novel non-hydroxamate histone deacetylase (HDAC) inhibitors, a series of compounds modeled after suberoylanilide hydroxamic acid (SAHA) was designed and synthesized. In this series, compound 7, in which the hydroxamic acid of SAHA is replaced by a thiol, was found to be as potent as SAHA, and optimization of this series led to the identification of HDAC inhibitors more potent than SAHA. In cancer cell growth inhibition assay, S-isobutyryl derivative 51 showed strong activity, and its potency was comparable to that of SAHA. The cancer cell growth inhibitory activity was verified to be the result of histone hyperacetylation and subsequent induction of p21WAF1/CIP1 by Western blot analysis. Kinetical enzyme assay and molecular modeling suggest the thiol formed by enzymatic hydrolysis within the cell interacts with the zinc ion in the active site of HDACs.
