NMR Spectroscopy Reveals that Polyglutamine Binding Peptide 1 Adopts a Preferred Conformation with a Defined Hydrophobic Cluster.
 

NMR Spectroscopy Reveals that Polyglutamine Binding Peptide 1 Adopts a Preferred Conformation with a Defined Hydrophobic Cluster.

Related Articles NMR Spectroscopy Reveals that Polyglutamine Binding Peptide 1 Adopts a Preferred Conformation with a Defined Hydrophobic Cluster.

Arch Biochem Biophys. 2014 Jul 4;

Authors: Ramos-Martín F, Hervás R, Vázquez MC, Laurents DV

Abstract
Several important human inherited neurodegenerative diseases are caused by "polyQ expansions", which are aberrant long repeats of glutamine residues in proteins. PolyQ binding peptide 1 (QBP1), whose minimal active core sequence is Trp-Lys-Trp-Trp-Pro-Gly-Ile-Phe, binds to expanded polyQs and blocks their ?-structure transition, aggregation and in vivo neurodegeneration. Whereas QBP1 is a widely used, commercially available product, its structure is unknown. Here, we have characterized the conformations of QBP1 and a scrambled peptide (Trp-Pro-Ile-Trp-Lys-Gly-Trp-Phe) in aqueous solution by CD, fluorescence and NMR spectroscopies. A CD maximum at 227 nm suggests the presence of rigid Trp side chains in QBP1. Based on 41 NOE-derived distance constraints, the 3D structure of QBP1 was determined. The side chains of Trp 4 and Ile 7, and to a lesser extent, those of Lys 2, Trp 3 and Phe 8, form a small hydrophobic cluster. Pro 5 and Gly 6 adopt a type II tight turn and Lys 2's ?-NH3(+) is positioned to form a favorable cation-? interaction with Trp 4's indole ring. In contrast, the scrambled QBP1 peptide, which lacks inhibitory activity, does not adopt a preferred structure. These results provide a basis for future structure-based design approaches to further optimize QBP1 for therapy.


PMID: 25009140 [PubMed - as supplied by publisher]



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