Abstract
Conformational analysis of a potent class of cysteine protease inhibitors is thoroughly studied by NMR, in both, polar and apolar solvents to get a better insight over the known biological activity and migration through biological media. These molecules are composed by a benzodiazepine (BDZ) scaffold connected to a bromo-isoxazoline (IOX) ring through an alkyl spacer (AS) with up to four-carbon atoms. Data, supported by theoretical calculations at DFT level, reveal that both BDZ and IOX keep a pretty rigid and asymmetric conformation, so that four diastereo-atropisomers (two mirror-image couples) are generated. The relative stiffness of these substrates, maintained also in different solvents, is confirmed by: (a) remarkable separation of diastereotopic protons; (b) specific “through the space contacts” (NOESY); and (c) very good fitting of the coupling constants evaluations. The prototypic compound with the longer AS shows two main conformations and a certain dynamic freedom around the AS torsional angles close to IOX; according to our data, the AS length is not fundamental for the functional BDZ and IOX fitting into the macromolecular complex; however, it does play a crucial role to cross the parasite cell membranes.
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