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Rational derivation of CETP self-binding helical peptides by π-π stacking and halogen bonding: Therapeutic implication for atherosclerosis.
Bioorganic Chemistry 2016 October
The human cholesteryl ester transfer protein (CETP) transfers cholesteryl ester from high-density lipoprotein (HDL) to other lipoproteins and has been established as an attractive target for reducing the risk of atherosclerosis. Here, an amphipathic α-helix peptide, namely SBH-peptide ((465)EHLLVDFLQSLS(476)), was derived from the C-terminal tail of CETP. The peptide exhibits self-binding capability towards the CETP. Crystal structure analysis, molecular dynamics (MD) simulations and ab initio electron correlation characterizations of CETP-SBH-peptide complex system revealed that the Phe471 residue plays a key role in SBH-peptide binding, which can form a π-π stacking with the Phe197 residue of CETP. In addition, substitution of the hydrogen atom H4 of Phe471 with halogen atoms, in particular the bromine atom Br4, can constitute a geometrically satisfactory halogen bonding with the oxygen atom O of CETP Ile193 residue. Fluorescence polarization assays substantiated that (i) mutation of the aromatic Phe471 to small Ala residue would impair the SBH-peptide affinity with Kd change from 10.5 to 26.4μM, indicating that the π-π stacking should exist in Phe471⋯Phe197 adduct, and (ii) substitution with Br4 can considerably improve SBH-peptide affinity by ∼3-fold, but the SBH-peptide binding does not change essentially upon substitution with Br3 (a negative control that is theoretically unable to form the halogen bonding), indicating that the rationally designed halogen bonding should form between the Phe471(Br4) residue of SBH-peptide and the Ile193 residue of CETP protein.
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