Your search keyword '"Nobuo Shimma"' showing total 2 results

1. Optimizing the Physicochemical Properties of Raf/MEK Inhibitors by Nitrogen Scanning

Author

Masayuki Matsushita, Koji Shiraki, Kenji Morikami, Ikumi Hyohdoh, Kazutomo Ori, Kenji Takanashi, Hitoshi Iikura, Yasushi Tomii, Toshihiro Aoki, Noriyuki Furuichi, Yuko Aoki, Fumio Watanabe, Sawako Ozawa, Mitsuyasu Tabo, Masahiro Sakaitani, Kiyoshi Yoshinari, Nobuo Shimma, Naoki Harada, and Kentaro Furumoto

Subjects

HCT116 Cell, Carbon atom, biology, Organic Chemistry, hERG, chemistry.chemical_element, Nanotechnology, Metabolic stability, Ring (chemistry), Biochemistry, Combinatorial chemistry, Nitrogen, chemistry.chemical_compound, chemistry, Drug Discovery, biology.protein, Solubility, Derivative (chemistry)

Abstract

Substituting a carbon atom with a nitrogen atom (nitrogen substitution) on an aromatic ring in our leads 11a and 13g by applying nitrogen scanning afforded a set of compounds that improved not only the solubility but also the metabolic stability. The impact after nitrogen substitution on interactions between a derivative and its on- and off-target proteins (Raf/MEK, CYPs, and hERG channel) was also detected, most of them contributing to weaker interactions. After identifying the positions that kept inhibitory activity on HCT116 cell growth and Raf/MEK, compound 1 (CH5126766/RO5126766) was selected as a clinical compound. A phase I clinical trial is ongoing for solid cancers.

Published

2014

2. Fluorine Scanning by Nonselective Fluorination: Enhancing Raf/MEK Inhibition while Keeping Physicochemical Properties

Author

Naoki Harada, Kiyoshi Yoshinari, Kenji Takanashi, Noriyuki Furuichi, Ikumi Hyohdoh, Kazutomo Ori, Mitsuyasu Tabo, Fumio Watanabe, Haruyoshi Shirai, Yasushi Tomii, Nobuo Shimma, Pil-Su Ho, Toshihiro Aoki, Hitoshi Iikura, Sawako Ozawa, Masahiro Sakaitani, Yuko Aoki, Yoshiko Itezono, and Masayuki Matsushita

Subjects

chemistry.chemical_compound, chemistry, Stereochemistry, Organic Chemistry, Drug Discovery, Fluorine, chemistry.chemical_element, Tumor growth inhibition, Animal species, Biochemistry, Chemical synthesis, Lead compound, Combinatorial chemistry

Abstract

A facile methodology effective in obtaining a set of compounds monofluorinated at various positions (fluorine scan) by chemical synthesis is reported. Direct and nonselective fluorination reactions of our lead compound 1a and key intermediate 2a worked efficiently to afford a total of six monofluorinated derivatives. All of the derivatives kept their physicochemical properties compared with the lead 1a and one of them had enhanced Raf/MEK inhibitory activity. Keeping physicochemical properties could be considered a benefit of monofluorinated derivatives compared with chlorinated derivatives, iodinated derivatives, methylated derivatives, etc. This key finding led to the identification of compound 14d, which had potent tumor growth inhibition in a xenograft model, excellent PK profiles in three animal species, and no critical toxicity.

Published

2013