We present and thoroughly characterize a large collection of 3,4-dihydropyrimidin-2(1)-ones as AAR antagonists, an emerging strategy in cancer (immuno) therapy. Most compounds selectively bind AAR, with a number of potent and selective antagonists further confirmed by functional cyclic adenosine monophosphate experiments. The series was analyzed with one of the most exhaustive free energy perturbation studies on a GPCR, obtaining an accurate model of the structure-activity relationship of this chemotype. The stereospecific binding modeled for this scaffold was confirmed by resolving the two most potent ligands [(±)-, and (±)- = 10.20 and 23.6 nM, respectively] into their two enantiomers, isolating the affinity on the corresponding ()-eutomers ( = 6.30 and 11.10 nM, respectively). The assessment of the effect in representative cytochromes (CYP3A4 and CYP2D6) demonstrated insignificant inhibitory activity, while in vitro experiments in three prostate cancer cells demonstrated that this pair of compounds exhibits a pronounced antimetastatic effect.
About The Expert
María Majellaro
Willem Jespers
Abel Crespo
María J Núñez
Silvia Novio
Jhonny Azuaje
Rubén Prieto-Díaz
Claudia Gioé
Belma Alispahic
José Brea
María I Loza
Manuel Freire-Garabal
Carlota Garcia-Santiago
Carlos Rodríguez-García
Xerardo García-Mera
Olga Caamaño
Christian Fernandez-Masaguer
Javier F Sardina
Angela Stefanachi
Abdelaziz El Maatougui
Ana Mallo-Abreu
Johan Åqvist
Hugo Gutiérrez-de-Terán
Eddy Sotelo
References
PubMed