Abstract
The synthetic lipid-associating peptide, LAP-20 (VSSLLSSLKEYWSSLKESFS), activates lecithin-cholesterol acyltransferase (LCAT) despite its lack of sequence homology to apolipoprotein A-I, the primary in vivo activator of LCAT. Using SDS and dodecylphosphocholine (DPC) to model the lipoprotein environment, the structural features responsible for LAP-20's ability to activate LCAT were studied by optical and two-dimensional 1H NMR spectroscopy. A large blue shift in the intrinsic fluorescence of LAP-20 with the addition of detergent suggested that the peptide formed a complex with the micelles. Analysis of the CD data shows that LAP-20 lacks well defined structure in aqueous solution but adopts helical, ordered conformations upon the addition of SDS or DPC. The helical nature of the peptides in the presence of both lipids was confirmed by upfield H alpha NMR secondary shifts relative to random coil values. Average structures for both peptides in aqueous solutions containing SDS and DPC were generated using distance geometry methods from 329 (SDS) and 309 (DPC) nuclear Overhauser effect-based distance restraints. The backbone (N, Calpha, C=O) RMSD from the average structure of an ensemble of 17 out of 20 calculated structures was 0.41 +/- 0.15 Angstrom for LAP-20 in SDS and 0.41 +/- 0.12 A for an ensemble of 20 out of 20 calculated structures for LAP-20 in DPC. In the presence of SDS, the distance geometry and simulated annealing calculations show that LAP-20 adopts a well defined class A amphipathic helix with distinct hydrophobic and hydrophilic faces. A similar structure was obtained for LAP-20 in the presence of DPC, suggesting that both detergents may be used interchangeably to model the lipoprotein environment. Conformational features of the calculated structures for LAP-20 are discussed relative to models for apolipoprotein A-I activation of LCAT.
Highlights
In human plasma, free and esterified cholesterol circulate as constituents of lipoproteins
A blue shift of 16 nm was reported for LAP-20 upon the addition of 20 M excess DMPC [29]
A peptide:detergent ratio of 1:4 (SDS) and 1:6 (DPC), no further changes were observed in the CD spectra, suggesting that LAP-20 was completely associated with lipid in a micelle-bound state [20, 33]
Summary
Materials—LAP-20, VSSLLSSLKEYWSSLKESFS, was synthesized by Dr Ian Clark-Lewis (University of British Columbia) using solidphase methods [22]. NOESY data were recorded using mixing times of 75, 100, 150, and 225 ms. A 75-ms mixing time and 2.5-ms trim pulse were used in the MLEV-17 spinlocking sequence of the TOCSY experiments. Structure Calculations—Three-dimensional structures were calculated from the NOE distance data (FELIX) using the distance geometry program (DGII) of Insight II as described by Rozek et al [20], except the initial distance restraints used to calculate structures for LAP-20 in DPC were obtained by classifying the peak volumes into strong (1.80 – 3.0 Å), medium (2.80 – 4.0 Å), and weak (3.80 –5.50 Å) ranges as opposed to ranges of 1.80 –2.50, 2.51–3.50 and 3.51–5.00 Å used to classify NOESY volumes for LAP-20 in SDS
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