Binding of β-Amyloid (1–42) Peptide to Negatively Charged Phospholipid Membranes in the Liquid-Ordered State: Modeling and Experimental Studies

Abstract: To explore the initial stages of amyloid β peptide (Aβ42) deposition on membranes, we have studied the interaction of Aβ42 in the monomeric form with lipid monolayers and with bilayers in either the liquid-disordered or the liquid-ordered (L(o)) state, containing negatively charged phospholipids. Molecular dynamics (MD) simulations of the system have been performed, as well as experimental measurements. For bilayers in the L(o) state, in the absence of the negatively charged lipids, interaction is weak and it … Show more

“…A vast number of human diseases are associated with protein misfolding and extracellular formation of highly organized aggregates with fibrillar morphology (Ahyayauch et al, 2012). Evidence shows that short peptides are involved in regulating the proper folding of proteins, which implicates the possible role of peptides in prevention of amyloid fibrilogenesis.…”

“…Antioxidant peptides, aside from their nutritional benefits, can suppress the oxidation reactions through various mechanisms including inactivation of reactive oxygen species, free radicals scavenging, chelation of pro-oxidative transition metals and promoting the enzymatic elimination of specific oxidants (Bamdad, Wu, & Chen, 2011). In a related area of research, free radical reactions are shown to be the critical step in amyloid fibril formation (Ahyayauch et al, 2012). Normal cell functions are disturbed by the aberrant aggregation of proteins leading to highly ordered protein assemblies such as amyloid fibrils (Gazit, 2005).…”

“…According to the recent studies, hydrophobic interactions and hydrogen bonding play critical roles in forming a highly ordered fibril structure (Ahyayauch et al, 2012). Exposed hydrophobic zones of the unfolded protein chains promote their association into a network and hydrogen bonds stabilize their primary association to form a nucleus (Ahyayauch et al, 2012). This could clearly explain the positive contribution of the Gln and Tyr residues to inhibit aggregation by hydrogen bonding and hydrophobic interactions, respectively.…”

“…It was also shown that the charged opioid peptides had lower capacity to inhibit fibril formation compared to more hydrophobic peptides (Artemova et al, 2010). According to the recent studies, hydrophobic interactions and hydrogen bonding play critical roles in forming a highly ordered fibril structure (Ahyayauch et al, 2012). Exposed hydrophobic zones of the unfolded protein chains promote their association into a network and hydrogen bonds stabilize their primary association to form a nucleus (Ahyayauch et al, 2012).…”

Specifically designed peptide structures effectively suppressed oxidative reactions in chemical and cellular systems

“…A vast number of human diseases are associated with protein misfolding and extracellular formation of highly organized aggregates with fibrillar morphology (Ahyayauch et al, 2012). Evidence shows that short peptides are involved in regulating the proper folding of proteins, which implicates the possible role of peptides in prevention of amyloid fibrilogenesis.…”

“…Antioxidant peptides, aside from their nutritional benefits, can suppress the oxidation reactions through various mechanisms including inactivation of reactive oxygen species, free radicals scavenging, chelation of pro-oxidative transition metals and promoting the enzymatic elimination of specific oxidants (Bamdad, Wu, & Chen, 2011). In a related area of research, free radical reactions are shown to be the critical step in amyloid fibril formation (Ahyayauch et al, 2012). Normal cell functions are disturbed by the aberrant aggregation of proteins leading to highly ordered protein assemblies such as amyloid fibrils (Gazit, 2005).…”

“…According to the recent studies, hydrophobic interactions and hydrogen bonding play critical roles in forming a highly ordered fibril structure (Ahyayauch et al, 2012). Exposed hydrophobic zones of the unfolded protein chains promote their association into a network and hydrogen bonds stabilize their primary association to form a nucleus (Ahyayauch et al, 2012). This could clearly explain the positive contribution of the Gln and Tyr residues to inhibit aggregation by hydrogen bonding and hydrophobic interactions, respectively.…”

“…It was also shown that the charged opioid peptides had lower capacity to inhibit fibril formation compared to more hydrophobic peptides (Artemova et al, 2010). According to the recent studies, hydrophobic interactions and hydrogen bonding play critical roles in forming a highly ordered fibril structure (Ahyayauch et al, 2012). Exposed hydrophobic zones of the unfolded protein chains promote their association into a network and hydrogen bonds stabilize their primary association to form a nucleus (Ahyayauch et al, 2012).…”

Specifically designed peptide structures effectively suppressed oxidative reactions in chemical and cellular systems

“…As such, this short transmembrane segment is often used in studies of the protein interactions and partitioning in the membrane [47,48]. While A peptides are frequently reported in an extracellular location, A 1-40 and A 1-42 molecules were found to strongly interact with negatively charged lipids and to bind to anionic, negatively charged membranes [49][50][51][52][53][54][55], orienting parallel to the membrane surface. Through X-ray and neutron diffraction, Mason et al [56] and Dante, Hauß and Dencher [47] observed an embedded state for the A 25-35 segment and the full-length A 1-42 peptide in anionic lipid membranes [57].…”

The Interaction of Bio-Molecules with Lipid Membranes Studied by X-ray Diffraction

Cryo‐electron Microscopy Imaging of Alzheimer's Amyloid‐beta 42 Oligomer Displayed on a Functionally and Structurally Relevant Scaffold