- Nanoparticulate glutathione peroxidase mimics based on selenocystine-pullulan conjugates.
Nanoparticulate glutathione peroxidase mimics based on selenocystine-pullulan conjugates.
We synthesized nanoparticulate glutathione peroxidase (GPx) mimics in which selenocystine (SeCyst) was conjugated to a hydrophilic linear polysaccharide, pullulan (Pul). The SeCyst ester-conjugated Pul derivatives (SeCyst-Pul) in phosphate buffer (pH 7) were treated with a sonicator to spontaneously form particulate materials. Dynamic light scattering measurements revealed that the SeCyst-Pul conjugates could form particulate materials with diameters between 100 and 300 nm. Distinctive endothermic peaks were observed for the SeCyst-Pul aggregate solutions based on a differential scanning calorimetric analysis. The tryptophan (Trp) fluorescence intensity of SeCyst benzyl ester-tryptophanyl-Pul (SeCyst-Bz-Trp-Pul) mostly decreased in comparison to those of the Trp-Pul (its precursor) and free Trp, which indicates that the Trp residues come close to each other during the aggregation of the conjugates. Formation of SeCyst-Pul aggregates could be induced by the hydrophobic interactions between the SeCyst esters and the amino acid residues on Pul. The GPx-like activity of SeCyst-Bz-Trp-Pul aggregates for the reduction of H2O2 was enhanced nearly 20-fold higher than that of free SeCyst. The double-reciprocal plots of the SeCyst-Bz-Trp-Pul aggregate-catalyzed reduction yielded parallel lines by varying the substrate concentrations, indicating a "ping-pong" mechanism that is similar to those of the natural GPxs. The enhanced GPx activity of the SeCyst-Bz-Trp-Pul aggregate was also supported by higher kinetic parameters, k(cat)/K(m) (GSH) and k(cat)/K(m) H2O2. Overall, the enhanced activity of the SeCyst-Bz-Trp-Pul aggregate would be attributed to a hydrophobic environment that was formed at the vicinity of the SeCyst.