The region encompassing residues 13–23 of the amyloid beta peptide (Aβ(13–23)) of Alzheimer’s disease is the self-recognition site that initiates toxic oligomerization and fibrillization and also is the site of interaction of Aβ with many other proteins. We describe herein a study by molecular dynamics of the complexes formed by R (= N-AcAβ(13–23)NH2(N-CH3C(O)HHQKLVFFAEDNH2)) with several pseudopeptides designed to form β-sheets with Aβ(1-40,42) and prevent oligomer and fibril formation. Adhesion to both edges of the R β-strand is examined by structure analysis. Umbrella sampling along a dissociation pathway reveals approximate free energies of binding in the submicromolar range. One of the three pseudopeptides binds strongly to one edge of the R β-strand and another to the opposite edge, while the third displays strong binding to both edges. It is desirable to block both edges of the self-recognition site of Aβ to prevent oligomer formation. The study reveals that this may be accomplished by a single pseudopeptide or two in combination. Thus the pseudopeptides, used singly or in pairs, may be competitive inhibitors of Aβ oligomerization at stoichiometric concentrations.
The region encompassed by residues 13–23 of the amyloid beta peptide (Aβ(13–23)) of Alzheimer’s disease is the self-recognition site that initiates toxic oligomerization and fibrillization and also is the site of interaction of Aβ with many other proteins. We describe herein a study by molecular dynamics of N-AcAβ(13–23)NH2 (N-CH3C(O)HHQKLVFFAEDNH2) as a model of full-length Aβ(1–40) or Aβ(1–42) and of its dimers. The effect of pH at or below physiological (pH 7.4) is assessed by protonation of one or more of the His residues. The major conformation of the monomer of the systems is a flexible folded structure. Protonation of one or both His residues does not change the conformation in any significant way. The dimers of protonated and unprotonated systems exist almost exclusively as stable antiparallel β-sheets anchored at both ends by intermolecular salt bridges between Lys16 of one chain and the C-terminal residues Glu22 and Asp23 of the other. We also employ the technique of “umbrella sampling” whereby relative binding affinities of the complexes could be determined. In the case of unsymmetrically protonated species, each complex begins dissociation by releasing the weaker salt bridge, breaking interstrand hydrogen bonds, and losing the β-sheet character. The stronger salt bridge is the last to release and presumably is the first to form in the reverse process of aggregation. Umbrella sampling yields the free energy profiles of the dissociation as a function of the separation of the centres of mass. For each system, the dissociation profile has only a shallow maximum. By implication, the reverse process of assembly has almost no barrier. This is an example of entropy–enthalpy compensation that arises naturally during the molecular dynamics – umbrella sampling simulation.
A causative factor for neurotoxicity associated with Alzheimer’s disease is the aggregation of the amyloid-β (Aβ) peptide into soluble oligomers. Two all d-amino acid pseudo-peptides, SGB1 and SGD1, were designed to stop the aggregation. Molecular dynamics (MD) simulations have been carried out to study the interaction of the pseudo-peptides with both Aβ13–23 (the core recognition site of Aβ) and full-length Aβ1–42. Umbrella sampling MD calculations have been used to estimate the free energy of binding, ∆G, of these peptides to Aβ13–23. The highest ∆Gbinding is found for SGB1. Each of the pseudo-peptides was also docked to Aβ1–42 and subjected up to seven microseconds of all atom molecular dynamics simulations. The resulting structures lend insight into how the dynamics of Aβ1–42 are altered by complexation with the pseudo-peptides and confirmed that SGB1 may be a better candidate for developing into a drug to prevent Alzheimer’s disease.
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