A simple, fast, and versatile method for selective bromination of indole alkaloids
The development of drugs through chemical modifications of naturally occurring indole alkaloids has emerged as an attractive research area. However, due to their reactivity, the selective functionalization at the C5 position of the indole ring has been difficult.
Researchers have recently developed a new one-step method for C5-selective bromination of indole alkaloids. It is simple, fast, mild, and can accommodate various functional groups. This innovative method can lead to the development of new drugs and agrochemicals.
Indolo[2,3-a]quinolizidine is a common structural motif in various natural products. Its molecular structure contains the indole ring, a functional group in tryptophan. Tryptophan, an essential amino acid, is required for the production and maintenance of our body's proteins, muscles, enzymes, and neurotransmitters. Many natural products are derived from it.
More than 3,000 monoterpene indole alkaloids (MTIAs), which are natural products consisting of indole rings, have been found in plants, and some of them have been used as medicines. For example, vinblastine has been used as an anticancer drug, and reserpine is used to treat high blood pressure.
The indole ring itself consists of a six-membered benzene ring fused with a five-membered nitrogen-containing pyrrole ring. Functionalization at the C5 position of the indole core of MTIAs is a common occurrence in biosynthesis and such MTIAs demonstrate attractive biological activities, including medicinal activity.
Hence, the development of drugs through chemical modifications of the naturally occurring MTIAs as templates has attracted significant attention. Consequently, the exploration of chemical modification methods for the indole ring has become an important research area. However, the indole ring is highly reactive, and hence, selective chemical modifications at its C5 reaction site have been difficult.
Addressing this challenge, a team of researchers from the Graduate School of Pharmaceutical Sciences at Chiba University, including Go Yoshimura (first author), Jukiya Sakamoto, and Mariko Kitajima, led by Professor Hayato Ishikawa, developed a novel one-step process for indole C5-selective bromination of MTIAs.
Prof. Ishikawa explains, "Bromine is an extremely important functional group due to its versatility. It serves as a substrate for key reactions and for facilitating further functionalization. We have successfully achieved selective bromination at the indole C5 position, which has been a notoriously challenging feat."
Their study was published in Chemistry–A European Journal on April 7, 2024.
The researchers previously achieved selective C5-bromination of an indole alkaloid. However, it required a four-step process and was not suitable for other multi-functionalized substrates.
In this study, the team developed a simpler one-step process. They used indolo[2,3-a]quinolizidine as a model substrate and treated it with equal amounts of pyridinium tribromide and hydrochloric acid with methanol as the solvent at 0°C.
The resulting reaction was surprisingly fast, requiring only 10 minutes, yielding the desired C5-brominated derivative. The researchers further found that an in-situ generated C3-, C5-brominated indolenine intermediate served as the brominating agent. They separately synthesized this intermediate and experimentally verified its role.
More information: Go Yoshimura et al, Indole C5‐Selective Bromination of Indolo[2,3‐a]quinolizidine Alkaloids via In Situ‐Generated Indoline Intermediate, Chemistry – A European Journal (2024). DOI: 10.1002/chem.202401153
Journal information: Chemistry – A European Journal
Provided by Chiba University