Between Peptides and Bile Acids: Self-Assembly of Phenylalanine Substituted Cholic Acids

Leana Travaglini, Andrea D'Annibale, Maria Chiara di Gregorio, Karin Schillén, Ulf Olsson, Simona Sennato, Nicolae V. Pavel, Luciano Galantini

Research output: Contribution to journalArticlepeer-review

Abstract

Biocompatible molecules that undergo self-assembly are of high importance in biological and medical applications of nanoscience. Peptides and bile acids are among the most investigated due to their ability to self-organize into many different, often stimuli-sensitive, supramolecular structures. With the aim of preparing molecules mixing the aggregation properties of bile acid and amino acid-based molecules, we report on the synthesis and self-association behavior of two diastereomers obtained by substituting a hydroxyl group of cholic acid with a L-phenylalanine residue. The obtained molecules are amphoteric, and we demonstrate that they show a pH-dependent self-assembly. Both molecules aggregate in globular micelles at high pH, whereas they form tubular superstructures under acid conditions. Unusual narrow nanotubes with outer and inner cross-section diameters of about 6 and 3 um are formed by the derivatives. The diasteroisomer with alpha orientation of the substituent forms in addition a wider tubule (17 nm cross-section diameter). The ability to pack in supramolecular tubules is explained in terms of a wedge-shaped bola-form structure of the derivatives. Parallel or antiparallel face-to-face dimers are hypothesized as fundamental building blocks for the formation of the narrow and wide nanotubes, respectively.
Original languageEnglish
Pages (from-to)9248-9257
JournalThe Journal of Physical Chemistry Part B
Volume117
Issue number31
DOIs
Publication statusPublished - 2013

Subject classification (UKÄ)

  • Physical Chemistry

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