Basic Organic and Inorganic Chemistry of Boron Clusters and Its Application to Drug Discovery

Abstract

In the past, drug discovery using low-molecular-weight compounds was dominated by structural design based on combinations of non-metallic elements such as carbon, nitrogen, oxygen, and halogens. Recent drug discovery efforts have shown extraordinary progress, an example of which is the adoption of non-universal elements. The approval of boron neutron capture therapy (BNCT) using a neutron accelerator in Japan ahead of other countries is still fresh in our memory. Other small-molecule drugs containing boron atoms have also been developed, and boron is becoming widely recognized as a constituent element for drug discovery. It is known that borane (BH3) is unstable because of its electron-deficient bonds; nevertheless, its stability has been improved by the formation of clusters through multimerization. Carborane (C2B10H12), one of the borane clusters, has an icosahedral structure with two carbon atoms and ten boron atoms and exhibits properties that vastly differ from conventional boron compounds. In this symposium review, we will introduce the basic chemistry of carboranes and their application to drug discovery. Boron is an essential element in plant cell wall formation and has extremely low toxicity to humans. I hope that this symposium review will be an opportunity for us to free ourselves from existing prejudices and constraints in drug discovery, and that new modalities that skillfully utilize the characteristics of boron and boron clusters will be developed one after another.