97627-17-3Relevant articles and documents
Design and synthesis of Rho kinase inhibitors (I)
Takami, Atsuya,Iwakubo, Masayuki,Okada, Yuji,Kawata, Takehisa,Odai, Hideharu,Takahashi, Nobuaki,Shindo, Kazutoshi,Kimura, Kaname,Tagami, Yoshimichi,Miyake, Mika,Fukushima, Kayoko,Inagaki, Masaki,Amano, Mutsuki,Kaibuchi, Kozo,Iijima, Hiroshi
, p. 2115 - 2137 (2007/10/03)
Several structurally unrelated scaffolds of the Rho kinase inhibitor were designed using pharmacophore information obtained from the results of a high-throughput screening and structural information from a homology model of Rho kinase. A docking simulation using the ligand-binding pocket of the Rho kinase model helped to comprehensively understand and to predict the structure-activity relationship of the inhibitors. This understanding was useful for developing new Rho kinase inhibitors of higher potency and selectivity. We identified several potent platforms for developing the Rho kinase inhibitors, namely, pyridine, 1H-indazole, isoquinoline, and phthalimide.
Methods for treating neurodegenerative diseases and disorders using N-(2,6-disubstituted aromatic)-N'-pyridinyl ureas and other anticonvulsant compounds
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, (2008/06/13)
The instant invention is novel uses of known N-(2,6-disubstituted phenyl)-N'-3- and 4-pyridinyl ureas and pharmaceutically acceptable acid addition salts thereof. Such compounds as N-(2-chloro-6-methylphenyl)-N'-4-pyridinyl urea monohydrochloride or N-(2,
Anticonvulsant N-(2,6-disubstituted aromatic)-n'-pyridinyl ureas
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, (2008/06/13)
N-(2,6-Disubstitutedphenyl)-N'-3- and 4-pyridinyl ureas and pharmaceutically acceptable acid addition salts having anticonvulsant activity are described as well as a process for their manufacture, formulations containing the compounds and a method of trea