RESUMO
A series of new pyrimidine thioethers, recognized as the key intermediates in the synthesis of S-DABO antivirals, were prepared and evaluated both in vivo and in silico. The purpose of this evaluation was to find novel structural analogues of the known antihypoxic drug Isothiobarbamine endowed with improved pharmacological profile. The in vivo studies led to the identification of compounds 5c, 5e, and 5f endowed with antidepressant/anxiolytic, performance enhancing, and nootropic properties. Compounds 5c and 5f were further tested in mice affected by social depression and were able to increase motor and tentative search activity compared to control groups, along with higher interaction frequency and better results in a sucrose preference test. Overall, these data suggested a better psychoemotional state of the animals, treated with compounds 5c, and 5f. Moreover, 5c and 5f exhibited minimal acute toxicity, lower than Fluoxetine hydrochloride. Molecular modelling studies finally indicated the plausible biomolecular mechanism of action of compounds 5c, 5e, and 5f, which seem to bind GABA-A, melatonin, and sigma-1 receptors. Moreover, three-dimensional structure-activity relationships enabled to define a SAR model that will be of great utility for the design of further structurally optimized compounds of the above mentioned chemotype.
Assuntos
Ansiolíticos , Nootrópicos , Animais , Camundongos , Ansiolíticos/farmacologia , Sulfetos , Antidepressivos/farmacologia , PirimidinasRESUMO
Conformational restriction applied to dihydrobenzylpyrimidin-4-(3 H)-ones (DABOs) by the intoduction of a methyl group at the α-benzylic position is known to massively improve the anti-HIV-1 activity of these compounds. Here, we report the effects of methoxy substitution at the α-benzylic position in S-, NH-, and N, N-DABOs carrying 2,6-difluoro, 2-chloro-6-fluoro, or 2,6-dichloro substituted benzyl moieties. The various α-methoxy DABO series (12-14) present different SAR at the dihalo benzyl substitution, with the most potent compounds (12d,e and 13c) showing similar (picomolar/nanomolar) anti-HIV-1 potency as the corresponding α-methyl analogues against wt HIV-1, and 10-100-fold increased potency (up to low nanomolar) against clinically relevant K103N, Y181C, Y188L, IRLL98, and K103N+Y181C HIV-1 mutant strains, highlighting the importance of the α-methoxy substitution to provide highly efficient DABOs as "second generation" NNRTIs. HPLC enantioseparation of three of the most potent derivatives (12d, 13c, and 14c) provided single enantiomers with significant enantioselectivity in HIV-1 inhibition. Computational studies allowed to correlate the best antiviral activity with the ( R) absolute configuration at the α-methoxy stereogenic center.