Preparation of Chiral Bromomethylenecyclopropane and Its Use in Suzuki–Miyaura Coupling: Synthesis of the Arylmethyl-(Z)-cyclopropane Structure Core

[Medicinal Chemical Studies Based on the Theoretical Design of Bioactive Compounds]

I have engaged in medicinal chemical studies based on the theoretical design of bioactive compounds. First, I present a three-dimensional structural diversity-oriented conformational restriction strategy for developing bioactive compounds based on the characteristic steric and stereoelectronic features of cyclopropane. Using this strategy, various biologically active small molecule compounds, such as receptor agonists/antagonists and enzyme inhibitors, were effectively developed. The strategy was also applied to develop versatile peptidomimetics and membrane-permeable cyclic peptides. Next, studies on Ca²⁺-mobilizing second messengers, cyclic ADP-ribose (cADPR) and myo-inositol trisphosphates (IP₃), are described. In these studies, stable equivalents of cADPR were developed, since biological studies of cADPR have been limited due to its instability. Various potent IP₃ receptor ligands, which were designed using the d-glucose structure as a bioisostere of the myo-inositol moiety of IP₃, have been identified. Organic chemistry studies have also been extensively performed, because excellent organic chemistry is essential for promoting high-level medicinal chemical studies. For examples, new methods for the synthesis of chiral cyclopropanes, new radical reactions with silicon tethers, and kinetic anomeric effect-dependent stereoselective glycosidations have been developed.

Visible-light-promoted hydroxysulfonylation of alkylidenecyclopropanes: synthesis of cyclopropane-containing β-hydroxysulfones

Cyclopropane-containing β-hydroxysulfones and cyclopropyl styrenes have been synthesised from readily available ACPs and sulfuryl chloride via visible-light photoredox catalysis.

Synthesis of Chiral cis-Cyclopropane Bearing Indole and Chromone as Potential TNFα Inhibitors

Conformationally restricted analogues of SPD-304, the first small-molecule TNFα inhibitor, in which two heteroaryl groups, indole and chromone, are connected by chiral methyl- or ethyl- cis-cyclopropane, were designed. Synthesis of these molecules was achieved via Suzuki-Miyaura or Stille coupling reactions with chiral bromomethylenecyclopropane or iodovinyl- cis-cyclopropane as the substrate, both of which were prepared from chiral methylenecyclopropane as a common intermediate, constructing the heteroaryl-methyl or -ethyl- cis-cyclopropane structures as key steps. This study presents an efficient synthesis of a series of chiral cis-cyclopropane conjugates with two heteroaryl groups.

Synthesis of enantiopure cyclopropyl esters from (−)-levoglucosenone

Levoglucosenone was converted into the GABA_C agonists (−)-TAMP, (+)-TAMP and an advanced intermediate used for the synthesis of the selective glutamate receptor antagonist PCCG-4.

An efficient approach to gem-difluorocyclopropylstannanes via highly regio- and stereoselective hydrostannylation of gem-difluorocyclopropenes and their unique ring-opening reaction to afford β-fluoroallylic alcohols

gem-Difluorocyclopropylstannanes, prepared via the hydrostannylation of gem-difluorocyclopropenes, were treated with MeLi and then quenching agents, to give (Z)-β-fluoroallyllic alcohols, ethers, esters, and amides.