The active sites of thiol-protein oxidoreductases consist of the characteristic Cys-X-X-Cys motif, and the redox potentials of these enzymes reflect the propensity of the bis(cysteinyl) sequence portion for disulfide loop formation. Thereby, as is known from comparing the three-dimensional (3D) structures of thioredoxin and glutaredoxin in the reduced and oxidized state, reduction of the disulfide bond is accompanied by minimal perturbation of the backbone folding of the active sites. In order to estimate the sequence-dependent intrinsic free energy of formation of the active-site disulfide loops in oxidoreductases, synthetic fragments corresponding to the sequences 31-38, 10-17, 134-141, and 34-41 of thioredoxin, glutaredoxin, thioredoxin reductase, and protein disulfide isomerase (PDI), respectively, were analyzed for their tendency to form 14-membered rings. For this purpose thiol/disulfide exchange experiments, with glutathione as reference redox pair, were performed on the bis(cysteinyl) octapeptides. As the free energy of ring closure of linear peptides consists mainly of the free energy of formation of the disulfide loop with a defined geometry from a statistical ensemble of conformations of the bis(cysteinyl) peptides, the observed differences in the equilibrium constants, although relatively small (within a factor 10), suggest that sequence-dependent information for loop formation is retained in the excised active-site fragments. These inherent redox potentials are, however, significantly affected and/or amplified in the native proteins by the conformational restraints imposed by the "structural domains" on the "functional domains".
Mono(6-succinylamido-6-deoxy)-13-cyclodextrin was synthesized by classical carbohydrate chemistry and used as a template mono-functionalized with the linear, fully flexible 4C-spacer carboxylate for covalent linkage of the calpain inhibitor leucyl-leucyl-norleucinal. Spectroscopic analyses of the conjugate do not support a self-inclusion of part of the hydrophobic peptide tail, but confirm its intra-or intermolecular interaction with the template moiety that leads to full water solubility. The inhibitory potency of the ~-cyclodextrin/peptide aldehyde construct was compared with that of the parent Ac-Leu-Leu-Nle-H against cathepsin B and calpain. Despite the large size of the template the inhibition of cathepsin B was only slightly reduced in full agreement with the X-ray structure of this enzyme which shows full accessibility of the S-subsites. For this enzyme the 4C-spacer is apparently sufficient to guarantee optimal interaction of the peptide tail with the binding cleft. Conversely, for gcalpain a significantly decreased inhibitory potency was obtained with the conjugate suggesting steric interference of the template in the binding process. These results show that the beneficial properties of the cyclodextrin template can be retained in conjugates with bioactive peptides if attention is paid to optimize in each case the size and nature of the spacer for optimal recognition of the grafted biomolecule.
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