Stereoselective Synthesis of New (2S,3R)‑3-Carboxyphenyl)pyrrolidine-2-carboxylic Acid
Analogues Utilizing a C(sp3)–H Activation Strategy
and Structure–Activity Relationship Studies at the Ionotropic
Glutamate Receptors
posted on 2020-02-17, 19:57authored bySilke Kayser, Jacob C. Hansen, Markus Staudt, Aleksandra Moroz, Younes Larsen, Piero Temperini, Feng Yi, Jed T. Syrenne, Niels Krogsgaard-Larsen, Stylianos Iliadis, Birgitte Nielsen, Kasper B. Hansen, Darryl S. Pickering, Lennart Bunch
Competitive antagonists for ionotropic
glutamate receptors (iGluRs)
are highly valuable tool compounds for studying health and disease
states in the central nervous system. However, only few subtype selective
tool compounds are available and the discovery of antagonists with
novel iGluR subtype selectivity profiles remains a profound challenge.
In this paper, we report an elaborate structure–activity relationship
(SAR) study of the parental scaffold 2,3-trans-3-carboxy-3-phenyl-proline
by the synthesis of 40 new analogues. Three synthetic strategies were
employed with two new strategies of which one being a highly efficient
and fully enantioselective strategy based on C(sp3)–H activation
methodology. The SAR study led to the conclusion that selectivity
for the NMDA receptors was a general trend when adding substituents
in the 5′-position. Selective NMDA receptor antagonists were
obtained with high potency (IC50 values as low as 200 nM)
and 3–34-fold preference for GluN1/GluN2A over GluN1/GluN2B-D
NMDA receptors.