In vitro bioavailability of chlorophyll pigments from edible seaweeds

[Display omitted] •It’s the first time to find that oxidized chlorophylls are micellarizated.•Chlorophylls a and c are better micellarizated than chlorophyll b.•Nori chlorophylls are the most bioaccessible compared with those in Sea Lettuce and Kombu.•Pheophorbide c is the most Caco-2 cell absorbabl...

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Bibliographic Details
Published in:Journal of functional foods 2018-02, Vol.41, p.25-33
Main Authors: Chen, Kewei, Roca, María
Format: Article
Language:English
Subjects:
Absorption
Bioavailability
Caco-2 cells
Chlorophyll
Micellarisation
Seaweed
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Summary:[Display omitted] •It’s the first time to find that oxidized chlorophylls are micellarizated.•Chlorophylls a and c are better micellarizated than chlorophyll b.•Nori chlorophylls are the most bioaccessible compared with those in Sea Lettuce and Kombu.•Pheophorbide c is the most Caco-2 cell absorbable chlorophyll derivative.•It’s the first time to find that chlorophyll oxidation occurs during cell absorption. For the first time, the uptake of chlorophyll pigments from the main edible seaweeds (Nori, Sea Lettuce and Wakame) has been investigated. During the micellarisation process, dephytylated chlorophylls were favoured over phytylated chlorophylls (a and c series were favoured over b series and oxidised chlorophylls were preferentially micellarised). This is the first time chlorophyll b derivatives have been found to be resistant to the in vitro digestion of the food matrix, indicating they are also potentially absorbable by enterocytes during the ingestion of green vegetables and fruits. Nori chlorophylls stand out as the most bioaccessible, followed by those in Sea Lettuce and Kombu. During the Caco-2 cell absorption process, dephytylated chlorophyll derivatives were also favoured over phytylated ones, with pheophorbide c being the most absorbable chlorophyll pigment. It is also the first time that chlorophyll oxidation reactions have been observed during cell absorption. The uptake of chlorophyll derivatives from edible seaweeds resulted in Caco-2 cell lines with a chlorophyll profile dominated by dephytylated and oxidised derivatives.
ISSN:1756-4646
2214-9414
DOI:10.1016/j.jff.2017.12.029