Preparation of a dansylated fibrate, a new fluorescent tool to study peroxisome proliferation. Effect on hepatic-derived cell lines

The synthesis of a dansylated fibrate (DNS-X) has been performed in order to identify the cellular affinity sites of peroxisome proliferators and to establish the subcellular localization of such molecules. DNS-X has been obtained by coupling the dansyl chloride with the amine resulting from the bez...

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Bibliographic Details
Published in:Biochimie 1997-02, Vol.79 (2), p.145-150
Main Authors: Berlot, J.P., Grub, S., Duclos, S., Causeret, C., Tainturier, G., Latruffe, N.
Format: Article
Language:English
Subjects:
Animals
Bezafibrate - chemistry
Cell Line
Dansyl Compounds - chemistry
fibrate
fluorescence
Humans
Liver - cytology
Microbodies - drug effects
Microbodies - ultrastructure
peroxisome proliferation
Rats
Tumor Cells, Cultured
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Summary:The synthesis of a dansylated fibrate (DNS-X) has been performed in order to identify the cellular affinity sites of peroxisome proliferators and to establish the subcellular localization of such molecules. DNS-X has been obtained by coupling the dansyl chloride with the amine resulting from the bezafibrate alkaline hydrolysis. The purified DNS-X has been further characterized by spectrum analysis (UV-Vis, fluorescence, [ 1H]/[ 3C]-NMR and mass). At 250 μM and incubated for 48 h with the rat hepatic derived cells (Fao cells). DNS-X stimulates 12-fold the palmitoyl-CoA oxidase, a peroxisome proliferation marker enzyme. This increase is comparable to the one obtained with well known peroxisome proliferators such as bezafibrate or ciprofibrate. The stimulation by DNS-X is specific for the overall molecule since neither the dansyl chloride, the amine, nor the precursors of DNS-X are active. The increase of palmitoyl-CoA oxidase activity is correlated with the increase of the enzyme amount as shown by immunoblotting. In agreement with the species-specificity of the fibrate neither DNS-X, bezafibrate nor ciprofibrate significantly increase palmitoyl-CoA oxidase activity and the enzyme amount in human hepatic-derived cells, HepG2. This work shows that the dansylated fibrate is a new fluorescent tool to study the subcellular localization and identification of high affinity binding sites, then further on, to elucidate the peroxisome proliferation mechanism and the action of hypolipidaemic agents of the fibrate family.
ISSN:0300-9084
1638-6183
DOI:10.1016/S0300-9084(97)81507-6