Modulation of tau protein aggregation using ‘Trojan’ sequences

Abstract

BackgroundThe abnormal assembly of tau into neurofibrillary tangles has been associated with over 30 debilitating disorders known as tauopathies. Tauopathies affect millions of people worldwide, yet no clinically approved solution for tau aggregation is currently available. MethodsWe employed a structure-based design approach to make a series of short peptide-based perturbants (Trojans), that can interact with the core hydrophobic fragment of tau protein. Through a combination of various biophysical methods, serum stability, toxicity, and blood-brain barrier translocation assays, we have assessed the efficacy of these designed peptides to intervene the aggregation of tau protein fragment. ResultsOur observations suggest that Trojan peptides could modulate the aggregation of the Ac-VQIVYK-NH2 peptide by either accelerating or arresting its self-assembly and reduce the neurotoxicity of the fibrils formed. The designed perturbant peptides showed three essential pre-requisites such as negligible cytotoxicity, high proteolytic stability in serum, and an ability to cross human blood-brain barrier (BBB). Furthermore, the Trojans could disassemble the pre-formed fibrillar assemblies. ConclusionsThese designed Trojan peptides can serve as a potential therapeutic option for tauopathies, modulating post as well as pre-aggregation leading to the diseases condition. General significanceTauopathies are a group of over 20 progressive neurodegenerative disorders that affect millions of people worldwide. The available therapies of tau-linked neurodegenerative syndromes are limited and mostly symptomatic and therefore there is an urgent need for a cost-effective treatment option. We are presenting a series of structure-based, de novo designed, short peptides that can potentially modulate tau protein aggregation.