Exploring the transition from primary to secondary micelles of taurodeoxycholate and mixed micelle formation with fatty acids by molecular dynamics simulations

21 August 2024, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Micelles formed by bile salts in aqueous solution are important for solubilization of hydrophobic molecules in the gastro intestinal tract. The molecular level information about the mechanism and driving forces for primary-to-secondary micelles transition is still missing. In the current study the micelle formation of 50 mM solutions of taurodeoxycholate (TDC) is studied by atomistic molecular dynamics simulations. It is shown that primary micelles with an aggregation number of 8-10 emerge and persist within the first 50 ns, which then coalesce to form secondary micelles with an aggregation number of 19 molecules. This transition is governed by hydrophobic interactions, which significantly decrease the solvent-accessible surface area per molecule in the secondary micelles. The addition of monomers of the sodium salt of fatty acids (FA) to secondary TDC micelles results in the co-existence of mixed FA-TDC and pure FA micelles. The studied saturated FAs, with chain lengths of C14:0 and C18:0, are incorporated into the micelle core, whereas TDC molecules position themselves around the FAs, forming a shell on the micelle surface. In contrast, the tails of the C18:1 unsaturated fatty acid mix homogeneously with TDC molecules throughout the entire micelle volume. The latter creates a very suitable medium for hosting hydrophobic molecules in the micelles containing unsaturated fatty acids.

Keywords

Taurodeoxycholate
myristate
oleate
stearate
all-atom molecular dynamics
micelle structure
self-assembly

Supplementary materials

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Title
Exploring the transition from primary to secondary micelles of taurodeoxycholate and mixed micelle formation with fatty acids by molecular dynamics simulations
Description
The Supporting information contains 1) picture of the periodic box with all components of the pure TDC system, 2) number of monomers and tetramers as a function of time, 3) distribution of the minimum distances between TDC molecules, 4) the composition of the mixed TDC/FA micelles, 5) RDF between TDC-TDC and TDC-FA in each obtained aggregate, 6) average TDC-TDC RDF, 7) snapshots of TDC+C18:0 micelles, 8) number of hydrogen bonds in each micelle, 9) donor-acceptor distances in the mixed micelles.
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