443987-99-3Relevant academic research and scientific papers
Discovery of an 8-aza-5-thiaProstaglandin E1 analog as a highly selective EP4 receptor agonist
Kambe, Tohru,Maruyama, Toru,Naganawa, Atsushi,Asada, Masaki,Seki, Akiteru,Maruyama, Takayuki,Nakai, Hisao,Toda, Masaaki
experimental part, p. 1494 - 1508 (2012/01/13)
For the purpose of discovering an orally available EP4 subtype-selective agonist, a series of 8-aza prostaglandin E1 (PGE1) analogs were synthesized and evaluated for their affinity for PGE2 receptor subtypes. Additionally
An improved synthesis of the selective EP4 receptor agonist ONO-4819
Ohta, Chisa,Kuwabe, Shin-Itsu,Shiraishi, Tai,Shinohara, Ikuo,Araki, Hiroshi,Sakuyama, Shigeru,Makihara, Takayuki,Kawanaka, Yasufumi,Ohuchida, Shuichi,Takuya, Seko
scheme or table, p. 8298 - 8308 (2010/02/17)
(Chemical Equation Presented) An improved synthesis of the highly selective EP4-receptor agonist ONO-4819 has been developed. The previous synthesis suffered from several drawbacks, in which a critical one is the difficulty in the removal of byproducts leading to unsatisfactory quality of the active pharmaceutical ingredient (API). Furthermore, on stereoselective reduction of an enone intermediate by binaphthol-modified lithium aluminum hydride, low concentration of the reaction conditions and tedious purification procedures to remove excess binaphthol were critical issues for the manufacturing process of the API. In the improved process,we have developed improved conditions using γ-thiobutyrolactone as sulfur source instead of potassium thioacetate to introduce the sulfur-containing C4 side chain without formation of byproducts. For stereoselective synthesis of the chiral alcohol, (-)-DIP-chloride reduction is found to be the best method, which can improve not only the enantioselectivity but also the workload for removing the chiral modifier in a purification process. Furthermore, benzoyl and tert-butyldimethylsilyl groups as protecting groups for hydroxyl functions were used for precise process controls of all intermediates. By changing these protecting groups, the purity of ONO-4819 was strictly controlled through crystalline intermediates. Thus, an improved robust process for ONO-4819 with a high chemical purity was developed. 2009 American Chemical Society.
