Abstract
A series of apolipopeptides, in which single proline substitutions were made at various sites in the 20-residue sequence, have been synthesized and tested. These peptides have nearly the same hydrophobic content, but very different helical contents, in a structure-making solvent. The affinity of these peptides for phospholipids was evaluated on the basis of their intrinsic tryptophan fluorescence and equilibrium dialysis against model high density lipoproteins. Proline substitutions at one end of the peptide had little or no effect on the fluorescence, circular dichroism, affinity for model high density lipoproteins, or activation of human plasma lecithin:cholesterol acyltransferase. By contrast, there was a dramatic change in all of these variables as the site of substitution was moved progressively closer to the middle of the peptide. All of these data suggested that a helix breaker that is substituted at the midpoint of a helical surface-associating peptide will greatly reduce its affinity for phospholipid surfaces. These results demonstrate that helicity and hydrophobicity are independent determinants of the affinity of an apolipopeptide for a phospholipid surface.
Highlights
A series of apolipopeptides, in which single proline Thesecriteriaarenot independent and, arenot substitutions were made at various sites inthe 20- easy to study independently with native apolipoproteins
The affinity of these peptides for phoss-trated that, for a given putative a-helicity and a constant pholipids was evaluated on the basis of their intrinsic tryptophafnluorescencaenedquilibrium dialysis against model high density lipoproteins
Proline substitutions atoneendofthepeptidehad little orno effect on the fluorescence, circular dichroisma,ffinity for model high density lipoproteins, or activation of peptide length, the free energy of association of an apolipopeptide to a lipid matrix is directly related to its hydrophobicity
Summary
A series of apolipopeptides, in which single proline Thesecriteriaarenot independent and, arenot substitutions were made at various sites inthe 20- easy to study independently with native apolipoproteins. Proline substitutions atoneendofthepeptidehad little orno effect on the fluorescence, circular dichroisma,ffinity for model high density lipoproteins, or activation of peptide length, the free energy of association of an apolipopeptide to a lipid matrix is directly related to its hydrophobicity. To investigate the importance of helical potential, we have synthesized a series of peptides with proline substituted at various positions of the previously reported LAP-20 peptide
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