Cysteine in the R3 Tau Peptide Modulates Hemin Binding and Reactivity.

Abstract

Tau is a neuronal protein involved in axonal stabilization; however under pathological conditions, it triggers the deposition of insoluble neurofibrillary tangles, which are one of the biomarkers for Alzheimer's disease. The factors that might influence the fibrillation process are i) two cysteine residues in two pseudorepetitive regions, called R2 and R3, which can modulate protein-protein interaction via disulfide cross-linking; ii) an increase of reactive oxygen species affecting the post-translational modification of tau; and iii) cytotoxic levels of metals, especially ferric-heme (hemin), in hemolytic processes. Herein, we investigated how the cysteine-containing R3 peptide (R3C) and its Cys→Ala mutant (R3A) interact with hemin and how their binding affects the oxidative damage of the protein. The calculated binding constants are remarkably higher for the hemin-R3C complex (LogK1 = 5.90; LogK2 = 5.80) with respect to R3A (LogK1 = 4.44; LogK2 < 2), although NMR and CD investigations excluded the direct binding of cysteine as an iron axial ligand. Both peptides increase the peroxidase-like activity of hemin toward catecholamines and phenols, with a double catalytic efficiency detected for hemin-R3C systems. Moreover, the presence of cysteine significantly alters the susceptibility of R3 toward oxidative modifications, easily resulting in peptide dopamination and formation of cross-linked S-S derivatives.