Catalytic Enantioselective Synthesis of Heterocyclic Vicinal Fluoroamines by Using Asymmetric Protonation: Method Development and Mechanistic Study.

Alexandra M Z Slawin,Matthew W Ashford,John J Molloy,Cameron Carpenter-Warren,Andrew G Leach,Chao Xu,Allan J B Watson

doi:10.1002/chem.202002543

Alexandra M Z Slawin, Matthew W Ashford + Show 5 more

Open Access

https://doi.org/10.1002/chem.202002543

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Abstract

A catalytic enantioselective synthesis of heterocyclic vicinal fluoroamines is reported. A chiral Brønsted acid promotes aza‐Michael addition to fluoroalkenyl heterocycles to give a prochiral enamine intermediate that undergoes asymmetric protonation upon rearomatization. The reaction accommodates a range of azaheterocycles and nucleophiles, generating the C−F stereocentre in high enantioselectivity, and is also amenable to stereogenic C−CF3 bonds. Extensive DFT calculations provided evidence for stereocontrolled proton transfer from catalyst to substrate as the rate‐determining step, and showed the importance of steric interactions from the catalyst's alkyl groups in enforcing the high enantioselectivity. Crystal structure data show the dominance of noncovalent interactions in the core structure conformation, enabling modulation of the conformational landscape. Ramachandran‐type analysis of conformer distribution and Protein Data Bank mining indicated that benzylic fluorination by this approach has the potential to improve the potency of several marketed drugs.

Highlights

Incorporation of fluorine into organic compounds is prominent in the pharmaceutical, agrochemical, and materials industries.[1]
A key attribute is the intrinsic polarity of the C–F bond, which can induce conformational changes through electrostatic and dipole interactions with neighboring functional groups
Installation of a chiral C–F bond with a vicinal relationship to a heteroatom or electronwithdrawing group is valuable as exploitation of the gauche effect allows predictable conformational control.[3]

Summary

Introduction

Incorporation of fluorine into organic compounds is prominent in the pharmaceutical, agrochemical, and materials industries.[1]. We present a method for the enantioselective synthesis of benzylic C(sp3)–F vicinal fluoroamines via asymmetric protonation of in situ generated prochiral fluoroenamines (Scheme 1c).[10,11,12] This method allows formation of a new C–N bond and benzylic stereogenic C–F bond in a single catalytic reaction, providing direct modular access to chiral heterocyclic vicinal fluoroamines from readily accessible vinyl fluoride precursors.[13] As the process does not rely upon the use of a fluorinating reagent, this avoids the issue of stereochemical erosion. The mechanism is fully investigated, with refinement of previous proposals and we show how the relationship of the azaheterocycle, amine, and C–F bond provides unique conformational control, which may offer benefits in drug design by better alignment with bound ligand conformation

Results and Discussion

14 O OH P

F N HH OO P OO