4.7 Article

A comparison of the location in membranes of curcumin and curcumin-derived bivalent compounds with potential neuroprotective capacity for Alzheimer's disease

Journal

COLLOIDS AND SURFACES B-BIOINTERFACES
Volume 199, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.colsurfb.2020.111525

Keywords

Curcumin; Membranes; H-1 NOESY MAS-NMR; DSC; Fluorescence quenching

Funding

  1. NIA of the NIH [R01AG058673]
  2. Alzheimer's Drug Discovery Foundation [20150601]
  3. VCU CCTR grant
  4. University of Murcia [368]

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Curcumin and two bivalent compounds were studied for their solubility and positioning in model membranes, suggesting that the curcumin moiety may be located near the polar part of the membrane. Molecular dynamics studies further supported this notion, indicating a potential role for the membrane anchorage of the bivalent compounds in facilitating the bioactivity of curcumin as anti-Alzheimer drugs.
Curcumin and two bivalent compounds, namely 17MD and 21MO, both obtained by conjugation of curcumin with a steroid molecule that acts as a membrane anchor, were comparatively studied. When incorporated into 1,2-dipalmitoyl-sn-glycero-3-phosphocholine the compounds showed a very limited solubility in the model membranes. Curcumin and the two bivalent compounds were also incorporated in membranes of 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine and quenching the fluorescence of pure curcumin or of the curcumin moiety in the bivalent compounds by acrylamide it was seen that curcumin was accessible to this water soluble quencher but the molecule was somehow located in a hydrophobic environment. This was confirmed by quenching with doxyl-phosphatidylcholines, indicating that the curcumin moieties of 17MD and 21MO were in a more polar environment than pure curcumin itself. H-1 NOESY MAS-NMR analysis supports this notion by showing that the orientation of curcumin was parallel to the plane of the membrane surface close to C2 and C3 of the fatty acyl chains, while the curcumin moiety of 17MD and 21MO positioned close to the polar part of the membrane with the steroid moiety in the centre of the membrane. Molecular dynamics studies were in close agreement with the experimental results with respect to the likely proximity of the protons studied by NMR and show that 17MD and 21MO have a clear tendency to aggregate in a fluid membrane. The anchorage of the bivalent compounds to the membrane leaving the curcumin moiety near the polar part may be very important to facilitate the bioactivity of the curcumin moiety when used as anti-Alzheimer drugs.

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