The first single electron transfer
reductive deuteration of nitriles
using D2O as a deuterium source has been developed for
the synthesis of valuable α,α-dideuterio amines. A mild
reductant (SmI2) was employed as the electron donor with
Et3N as the additive. This reaction is amenable to both
aromatic and aliphatic nitriles and features high deuterium incorporation,
excellent regioselectivity, and good functional group tolerance. The
synthetic utility of this protocol was demonstrated by the synthesis
of a series of important deuterium-labeled building blocks for medicinal
chemistry and agrochemistry applications.
α,β-Deuterated amines
are crucial for the development
of deuterated drugs. We intend to introduce the novel tandem H/D exchange-single
electron transfer (SET) reductive deuteration strategy with high pot-
and reagent-economy by the synthesis of α,β-deuterated
amine using nitrile as the precursor. The H/D exchange of the −CH2CN group was achieved by D2O/Et3N, which
were also the required reagents in the tandem SmI2-mediated
SET reductive deuteration of the α-deuterated nitrile. The potential
application of this method was further showcased by the synthesis
of bevantolol-d
4.
Abstractα,α-Dideuterio benzyl alcohols are important building blocks for the synthesis of deuterium-labeled medicines and agrochemicals. We have developed the first general single-electron transfer reductive deuteration of readily commercially available aromatic esters for the synthesis of α,α-dideuterio benzyl alcohols using benign D2O and a mild single-electron donor SmI2. This operationally convenient method features very good functional group tolerance and high deuterium incorporations (>95% D2). The potential impact has been exemplified by the synthesis of numerous deuterium labeled building blocks of important bioactive compounds. Most crucially, the method represents the first example of selective reductive deuteration of benzylic-type ketyl radicals using mild and highly chemoselective lanthanide(II) reagents.
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