In-situ side-chain peptide cyclization as a breaker strategy against the amyloid aggregating peptide

[Display omitted] Accumulation and deposition of misfolded amyloid β (Aβ) peptide outside the nerve cells are one of the major causes of Alzheimer’s disease (AD). To date, one of the promising therapeutic strategies for AD is to block the early steps associated with the aggregation of Aβ peptide. We have developed synthetic breaker peptides derived from the original Aβ sequences that undergo self-cyclization in situ. We have focussed and replaced Val-18 (of Aβ) by side-chain modified glutamic acid (Glu-OBn) to generate adequate turn through in-situ peptide cyclization to disrupt the β-sheet structure of Aβ. The disruption of amyloid fibril formation and the mechanism of the ‘inhibition of aggregation’ were studied by various biophysical methods, such as ThT-assay, TEM, Congo-red birefringence study. CD and FTIR spectroscopy were used to characterize the conformational change during the aggregation process. Results suggest that designed breaker peptides may be useful to inhibit and disrupt not only Aβ peptide but related peptides that undergo aggregation.