Amylin (hIAPP) aggregation leads to the formation of insoluble deposits and is one of the factors in the development of type II diabetes. The aim of this research was to find N-methylated analogs of the aggregating amylin fragments 18-22, 23-27, and 33-37, which would not themselves be susceptible to aggregation and would inhibit the aggregation of the amyloidogenic cores of the hormone. None of the analogs of fragment 18-22 containing one or two N-methylated amino acid residues showed any tendency to aggregate. Only the peptide H-F(N-Me)GA(N-Me) IL-OH (6) derived from the 23-27 hIAPP hot spot did not form fibrous structures. All analogs of the 33-37 amylin fragment were characterized by the ability to form aggregates, despite the presence of N-methylated amino acids in their structures. N-Methylated peptides 1-5 demonstrated inhibitory properties against the aggregation of fragment 18-22. Aggregation of the amyloidogenic core of 23-27 was significantly inhibited by N-methylated peptides 1-3 derived from the (18-22) H-HSSNN-OH fragment and by the H-F(N-Me)GA(N-Me)IL-OH (6) fragment derived from the 23-27 amylin hot spot. Fragment (33-37) H-GSNTY-NH2 was found to be inhibited in the presence of N-methylated peptides 1-3 derived from the 18-22 fragment and by the double methylated peptide H-F(N-Me)GA(N-Me)IL-OH (6). Research on the possibility of using N-methylated analogs of amyloidogenic amylin cores as inhibitors of hormone aggregation is ongoing, with a focus on finding the minimum concentration of N-methylated peptides capable of inhibiting the aggregation of hIAPP hot spots.
Keywords: Aggregation; N-methylated peptides; amylin; amyloid-like fiber formation; inhibitors of aggregation; triazine coupling reagent.
© 2020 Wiley-VHCA AG, Zurich, Switzerland.