Takahiro Miyake
Novartis
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by Takahiro Miyake.
Journal of Medicinal Chemistry | 2008
Naoki Teno; Keiichi Masuya; Takeru Ehara; Takatoshi Kosaka; Takahiro Miyake; Osamu Irie; Yuko Hitomi; Naoko Matsuura; Ichiro Umemura; Genji Iwasaki; Hiroaki Fukaya; Kazuhiro Toriyama; Noriko Uchiyama; Kazuhiko Nonomura; Ikuo Sugiyama; Motohiko Kometani
On the basis of the pyrrolopyrimidine core structure that was previously discovered, cathepsin K inhibitors having a spiro amine at the P3 have been explored to enhance the target, bone marrow, tissue distribution. Several spiro structures were identified with improved distribution toward bone marrow. The representative inhibitor 7 of this series revealed in vivo reduction in C-terminal telopeptide of type I collagen in rats and monkeys.
Bioorganic & Medicinal Chemistry Letters | 2008
Naoki Teno; Osamu Irie; Takahiro Miyake; Keigo Gohda; Miyuki Horiuchi; Sachiyo Tada; Kazuhiko Nonomura; Motohiko Kometani; Genji Iwasaki; Claudia Betschart
Cyano pyrimidine acetylene and cyano pyrimidine t-amine, which belong to a new chemical class, were prepared and tested for inhibitory activities against cathepsin K and the highly homologous cathepsins L and S. The use of novel chemotypes in the development of cathepsin K inhibitors has been demonstrated by derivatives of compounds 1 and 8.
Journal of Medicinal Chemistry | 2018
Wataru Kawahata; Tokiko Asami; Takao Kiyoi; Takayuki Irie; Haruka Taniguchi; Yuko Asamitsu; Tomoko Inoue; Takahiro Miyake; Masaaki Sawa
Brutons tyrosine kinase (BTK) is a promising drug target for the treatment of multiple diseases, such as B-cell malignances, asthma, and rheumatoid arthritis. A series of novel aminotriazines were identified as highly selective inhibitors of BTK by a scaffold-hopping approach. Subsequent SAR studies of this series using two conformationally different BTK proteins, an activated form of BTK and an unactivated form of BTK, led to the discovery of a highly selective BTK inhibitor, 4b. With significant efficacy in models in vivo and good ADME and safety profiles, 4b was advanced into preclinical studies.
Archive | 2004
Carlos Garcia-Echeverria; Takanori Kanazawa; Eiji Kawahara; Keiichi Masuya; Naoko Matsuura; Takahiro Miyake; Osamu Ohmori; Ichiro Umemura
Archive | 2004
Carlos Garcia-Echeverria; Takanori Kanazawa; Eiji Kawahara; Keiichi Masuya; Naoko Matsuura; Takahiro Miyake; Osamu Ohmori; Ichiro Umemura; Ruo Steensma; Greg Chopiuk; Jiqing Jiang; Yongqin Wan; Qiang Ding; Qiong Zhang; Nathanael S. Gray; Donald S. Karanewsky
Bioorganic & Medicinal Chemistry Letters | 2007
Naoki Teno; Takahiro Miyake; Takeru Ehara; Osamu Irie; Junichi Sakaki; Osamu Ohmori; Hiroki Gunji; Naoko Matsuura; Keiichi Masuya; Yuko Hitomi; Kazuhiko Nonomura; Miyuki Horiuchi; Keigo Gohda; Atsuko Iwasaki; Ichiro Umemura; Sachiyo Tada; Motohiko Kometani; Genji Iwasaki; Sandra W. Cowan-Jacob; Martin Missbach; Rene Lattmann; Claudia Betschart
Archive | 2004
Osamu Irie; Genji Iwasaki; Keiichi Masuya; Takahiro Miyake; Naoki Teno
Archive | 2007
Hidetomo Imase; Yuki Iwaki; Toshio Kawanami; Takahiro Miyake; Muneto Mogi; Osamu Ohmori; Hongbo Qin; Ichiro Umemura; Ken Yamada; Kayo Yasoshima
Archive | 2008
Muneto Mogi; Toshio Kawanami; Ken Yamada; Kayo Yasoshima; Hidetomo Imase; Takahiro Miyake; Osamu Ohmori
Archive | 2006
Junichi Sakaki; Masashi Kishida; Naoko Matsuura; Ichiro Umemura; Eiji Kawahara; Ken Yamada; Kazuhide Konishi; Yuki Iwaki; Hidetomo Imase; Takahiro Miyake
