An Androsterone‐H<sub>2</sub>@C<sub>60</sub> hybrid: Synthesis, Properties and Molecular Docking Simulations with SARS‐Cov‐2
Margarita Suárez, Kamil Makowski, Reinier Lemos, Luis Almagro, Hortensia Rodrı́guez, M. Ángeles Herranz, Dolores Molero, Orlando Ortiz, Enrique E. Maroto, Fernando Alberício, Yasujiro Murata, Nazario Martı́n
Abstract
Abstract We report the synthesis and characterization of a fullerene‐steroid hybrid that contains H 2 @C 60 and a dehydroepiandrosterone moiety synthesized by a cyclopropanation reaction with 76 % yield. Theoretical calculations at the DFT‐D3(BJ)/PBE 6‐311G(d,p) level predict the most stable conformation and that the saturation of a double bond is the main factor causing the upfield shielding of the signal appearing at −3.13 ppm, which corresponds to the H 2 located inside the fullerene cage. Relevant stereoelectronic parameters were also investigated and reinforce the idea that electronic interactions must be considered to develop studies on chemical‐biological interactions. A molecular docking simulation predicted that the binding energy values for the protease‐hybrid complexes were −9.9 kcal/mol and −13.5 kcal/mol for PL pro and 3CL pro respectively, indicating the potential use of the synthesized steroid‐H 2 @C 60 as anti‐SARS‐Cov‐2 agent.