# Synthesis of the tetracyclic skeleton of Aspidosperma alkaloids via PET-initiated cationic radical-derived interrupted [2 + 2]/retro-Mannich reaction

**Authors:** Ru-Dong Liu, Jian-Yu Long, Zhi-Lin Song, Zhen Yang, Zhong-Chao Zhang

PMC · DOI: 10.3762/bjoc.21.189 · Beilstein Journal of Organic Chemistry · 2025-11-10

## TL;DR

The paper describes a new synthetic method for building a complex tetracyclic structure found in Aspidosperma alkaloids using a radical-based reaction.

## Contribution

A novel PET-initiated cationic radical-derived reaction is introduced for constructing the ABCE tetracyclic framework of Aspidosperma alkaloids.

## Key findings

- The PET-initiated reaction enables direct construction of the ABCE tetracyclic framework.
- DFT calculations identified the rate-determining step involving C19–C12 bond formation and C19–C3 bond cleavage.
- The reaction mechanism involves a formal 1,3-C shift and is neither fully concerted nor stepwise.

## Abstract

Natural products with topologically complex architectures are important sources in drug discovery. The pursuit of conciseness and efficiency in the total synthesis of natural products promotes continuous innovation and the development of new reactions and strategies. In this work, a PET-initiated cationic radical-derived interrupted [2 + 2]/retro-Mannich reaction of N-substituted cyclobutenone provided a facile approach to the direct construction of the ABCE tetracyclic framework of Aspidosperma alkaloids. DFT calculations showed that the rate-determining step of the key PET reaction involved C19–C12 bond formation and C19–C3 bond cleavage. Investigation of the bond length changes along the IRC path, spin density, and NBO analysis indicated that this process is neither strictly concerted nor stepwise, but falls in between, and involves a formal 1,3-C shift.

## Full-text entities

- **Chemicals:** ABCE (-)

## Full text

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## Figures

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## References

38 references — full list in the complete paper: https://tomesphere.com/paper/PMC12621632/full.md

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Source: https://tomesphere.com/paper/PMC12621632