172733-79-8Relevant articles and documents
Design, syntheses, and structure-activity relationships of novel NPY Y5 receptor antagonists: 2-{3-Oxospiro[isobenzofuran-1(3H),4′-piperidin]-1′-yl}benzimidazole derivatives
Ogino, Yoshio,Ohtake, Norikazu,Nagae, Yoshikazu,Matsuda, Kenji,Moriya, Minoru,Suga, Takuya,Ishikawa, Makoto,Kanesaka, Maki,Mitobe, Yuko,Ito, Junko,Kanno, Tetsuya,Ishihara, Akane,Iwaasa, Hisashi,Ohe, Tomoyuki,Kanatani, Akio,Fukami, Takehiro
scheme or table, p. 5010 - 5014 (2009/05/07)
Design, syntheses, and structure-activity relationships of a novel class of 2-{3-oxospiro[isobenzofuran-1(3H),4′-piperidin]-1′-yl}benzimidazole NPY Y5 receptor antagonists are described. The benzimidazole structures were newly designed based on the urea linkage of our prototype Y5 receptor antagonists (2 and 3). By optimizing substituents on the benzimidazole core part of the lead compound 5a, we were able to develop a potent, orally available, and brain-penetrable Y5 selective antagonist (5k). Crown Copyright
Efficient synthesis of a highly selective NPY-5 receptor antagonist: A drug candidate for the treatment of obesity
Itoh, Takahiro,Kato, Shinji,Nonoyama, Nobuaki,Wada, Toshihiro,Maeda, Kenji,Mase, Toshiaki,Zhao, Matthew M.,Song, Jake Z.,Tschaen, David M.,McNamara, James M.
, p. 822 - 828 (2012/12/22)
A concise and practical synthesis of highly selective NPY-5 receptor antagonist 1 is described. The animopyrazine intermediate 3 was synthesized via either monobromination of aminopyrazine or palladium-catalyzed regioselective debromination of dibromopyrazine followed by an efficient Suzuki-Miyaura coupling. For the preparation of the spirolactone piperidine 2, significantly improved yield was achieved by using a combination of n-BuMgCl and n-BuLi. This protocol also dramatically increased the thermal stability of the aryllithium intermediate and eliminated the requirement for costly cryogenic conditions. The union of the spirolactone piperidine 2 and aminopyrazine 3 via a carbonyl group was accomplished using phenyl chloroformate delivering the target molecule in high yield.