Although boron has been a chemical element of interest since the ancient times,only a few boron-containing compounds(BCCs)had been used for medicinal purposes before the 21^(st) century.Among these,only boric acid has...Although boron has been a chemical element of interest since the ancient times,only a few boron-containing compounds(BCCs)had been used for medicinal purposes before the 21^(st) century.Among these,only boric acid has been explored in multiple therapeutic applications.Hence,it is common to extrapolate from boric acid to all BCCs,supposing a similar biological effect.However,boric acid is just one of dozens of BCCs in nature and thousands available from chemical synthesis.Nowadays,there is a boom in research on new BCCs as potential tools in the prevention,diagnosis and therapy of human disease.We herein discuss the new role of BCCs in drug development,with emphasis on the compounds for which a mechanism of action has been proposed or demonstrated.Because of data gathered in recent years,BCCs have expanded beyond the well-known fields of antimicrobial and antineoplastic agents,now being explored for their possible use as enzyme inhibitors,regulators of protein expression and modulators of the immune response,as well as in biomaterials.We suggest that translational medicine can accelerate the medicinal applications of BCCs,which is especially important for the human diseases that are generating a high global burden.展开更多
基金Supported by Consejo Nacional de Ciencia y Tecnología de México,No.CB235785
文摘Although boron has been a chemical element of interest since the ancient times,only a few boron-containing compounds(BCCs)had been used for medicinal purposes before the 21^(st) century.Among these,only boric acid has been explored in multiple therapeutic applications.Hence,it is common to extrapolate from boric acid to all BCCs,supposing a similar biological effect.However,boric acid is just one of dozens of BCCs in nature and thousands available from chemical synthesis.Nowadays,there is a boom in research on new BCCs as potential tools in the prevention,diagnosis and therapy of human disease.We herein discuss the new role of BCCs in drug development,with emphasis on the compounds for which a mechanism of action has been proposed or demonstrated.Because of data gathered in recent years,BCCs have expanded beyond the well-known fields of antimicrobial and antineoplastic agents,now being explored for their possible use as enzyme inhibitors,regulators of protein expression and modulators of the immune response,as well as in biomaterials.We suggest that translational medicine can accelerate the medicinal applications of BCCs,which is especially important for the human diseases that are generating a high global burden.
