Alzheimer’s
disease is undoubtedly the most well-studied
neurodegenerative disease. Consequently, the amyloid-β (Aβ)
protein ranks at the top in terms of getting attention from the scientific
community for structural property-based characterization. Even after
decades of extensive research, there is existing volatility in terms
of understanding and hence the effective tackling procedures against
the disease that arises due to the lack of knowledge of both specific
target- and site-specific drugs. Here, we develop a multidimensional
approach based on the characterization of the common static-dynamic-thermodynamic
trait of the monomeric protein, which efficiently identifies a small
target sequence that contains an inherent tendency to misfold and
consequently aggregate. The robustness of the identification of the
target sequence comes with an abundance of a priori knowledge about
the length and sequence of the target and hence guides toward effective
designing of the target-specific drug with a very low probability
of bottleneck and failure. Based on the target sequence information,
we further identified a specific mutant that showed the maximum potential
to act as a destabilizer of the monomeric protein as well as enormous
success as an aggregation suppressor. We eventually tested the drug
efficacy by estimating the extent of modulation of binding affinity
existing within the fibrillar form of the Aβ protein due to
a single-point mutation and hence provided a proof of concept of the
entire protocol.
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