CONICET | Buscador de Institutos y Recursos Humanos

Recently we reported two new structural scaﬀolds as potential inhibitors of BRAF; both series of compounds were studied in greater depth in the present work. Our results indicate that the new substituted piperazinylpropandiols derivatives evaluated here do not show signiﬁcantly better activities to that previously reported for the structure chosen as starting structure. In contrast the results obtained for the other series were more positive. We report now new hydroxynaphthalenecarboxamides with signiﬁcant inhibitory activity on BRAF. In order to better understand these experimental results, wecarried out a molecular modeling study using diﬀerent combined techniques. While the simulations using simple techniques such as docking and DM simulations allowed us to explain which the best structural scaﬀold, these results is do not allow to explain why compounds with substituents in diﬀerent spatial positions have similar inhibitory eﬀects. In this sense, the use of MD/QTAIM combined calculations allow to explain in detail the molecular interactions that stabilize the diﬀerent molecular complexes reported here. Another interesting contribution of this study is that the diﬀerent molecular interactions that stabilize the complexes have been analyzed in depth. The QTAIM results indicatethat the diﬀerent spatial dispositions of the substituents (ortho, meta and para) allow to establish alternative interactions with Asp594 or with Lis483 depending on their spatial arrangement. This result is in agreement to those observed for vemurafenib and dabrafenib. This structural information is important for the design of new inhibitors with this type of structural scaﬀold.