Structure analysis and conformational transitions of the cell penetrating Peptide transportan 10 in the membrane-bound state
Publication year
2014Source
PLoS One, 9, 6, (2014), article e99653ISSN
Publication type
Article / Letter to editor
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Organization
Biochemistry (UMC)
Journal title
PLoS One
Volume
vol. 9
Issue
iss. 6
Subject
Radboudumc 19: Nanomedicine RIMLS: Radboud Institute for Molecular Life SciencesAbstract
Structure analysis of the cell-penetrating peptide transportan 10 (TP10) revealed an exemplary range of different conformations in the membrane-bound state. The bipartite peptide (derived N-terminally from galanin and C-terminally from mastoparan) was found to exhibit prominent characteristics of (i) amphiphilic alpha-helices, (ii) intrinsically disordered peptides, as well as (iii) beta-pleated amyloid fibrils, and these conformational states become interconverted as a function of concentration. We used a complementary approach of solid-state 19F-NMR and circular dichroism in oriented membrane samples to characterize the structural and dynamical behaviour of TP10 in its monomeric and aggregated forms. Nine different positions in the peptide were selectively substituted with either the L- or D-enantiomer of 3-(trifluoromethyl)-bicyclopent-[1.1.1]-1-ylglycine (CF3-Bpg) as a reporter group for 19F-NMR. Using the L-epimeric analogs, a comprehensive three-dimensional structure analysis was carried out in lipid bilayers at low peptide concentration, where TP10 is monomeric. While the N-terminal region is flexible and intrinsically unstructured within the plane of the lipid bilayer, the C-terminal alpha-helix is embedded in the membrane with an oblique tilt angle of approximately 55 degrees and in accordance with its amphiphilic profile. Incorporation of the sterically obstructive D-CF3-Bpg reporter group into the helical region leads to a local unfolding of the membrane-bound peptide. At high concentration, these helix-destabilizing C-terminal substitutions promote aggregation into immobile beta-sheets, which resemble amyloid fibrils. On the other hand, the obstructive D-CF3-Bpg substitutions can be accommodated in the flexible N-terminus of TP10 where they do not promote aggregation at high concentration. The cross-talk between the two regions of TP10 thus exerts a delicate balance on its conformational switch, as the presence of the alpha-helix counteracts the tendency of the unfolded N-terminus to self-assemble into beta-pleated fibrils.
This item appears in the following Collection(s)
- Academic publications [243399]
- Electronic publications [129941]
- Faculty of Medical Sciences [92493]
- Open Access publications [104466]
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