Spin-probe and spin-label techniques were used to study the interactions of the Abeta 1-28 peptide involved in Alzheimer disease and the PrP 106-126 peptide suspected to be preferentially involved in spongiform encephalopathies with three different types of dendrimers. A computer-aided EPR analysis of a positively charged and a neutral spin probe was performed by comparing the pure dendrimer and peptide systems with the dendrimer-peptide ones. Also spin-labeled PAMAM dendrimers were used to test the interactions. The results show the interactions between dendrimer and peptide monomer to be stronger for Abeta 1-28 than for PrP 106-126. PAMAM dendrimers perturb the aggregation of the peptides more than PPI dendrimers do.
Heparin is involved in the pathogenesis of prion diseases, affecting the process of fibril formation. It has been shown that whether it accelerates or inhibits fibrilogenesis depends on its concentration: prion peptide PrP 185-208 aggregates in the presence of 0.04 mg ml À1 heparin, but concentrations ten times lower or higher cause no aggregation. Polyamidoamine, polypropyleneimine and phosphorus dendrimers that previously exhibited anti-prion activity have been shown to interact with heparin. The interactions between cationic dendrimers and anionic heparin are mainly electrostatic. The present study shows that these interactions are indirectly responsible for the inhibition or enhancement of fibril formation by dendrimers.
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