Metabolic Fate of the Secoiridoids Oleacein and Oleocanthal in an In Vitro Continuous Dialysis System with Human Gut Microbiota.

M.E. Sakavitsi; A. Breynaert; T. Nikou; A. Angelis; L. Pieters; N. Hermans; M. Halabalaki

doi:10.1055/s-0041-1736760

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Planta Med 2021; 87(15): 1243-1244
DOI: 10.1055/s-0041-1736760

Abstracts

3. Short Lectures

Metabolic Fate of the Secoiridoids Oleacein and Oleocanthal in an In Vitro Continuous Dialysis System with Human Gut Microbiota.

M.E. Sakavitsi

¹Division of Pharmacognosy and Natural Products Chemistry, Department of Pharmacy, National and Kapodistrian University of Athens, Greece

,

A. Breynaert

²Natural Products & Food Research and Analysis (NatuRA), Department of Pharmaceutical Sciences, University of Antwerp, Belgium

,

T. Nikou

¹Division of Pharmacognosy and Natural Products Chemistry, Department of Pharmacy, National and Kapodistrian University of Athens, Greece

,

A. Angelis

¹Division of Pharmacognosy and Natural Products Chemistry, Department of Pharmacy, National and Kapodistrian University of Athens, Greece

,

L. Pieters

²Natural Products & Food Research and Analysis (NatuRA), Department of Pharmaceutical Sciences, University of Antwerp, Belgium

,

N. Hermans

²Natural Products & Food Research and Analysis (NatuRA), Department of Pharmaceutical Sciences, University of Antwerp, Belgium

,

M. Halabalaki

¹Division of Pharmacognosy and Natural Products Chemistry, Department of Pharmacy, National and Kapodistrian University of Athens, Greece

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Kongressbeitrag
Volltext

The olive oil secoiridoids oleacein (OLEA) and oleocanthal (OLEO) bear diverse health promoting and disease preventing abilities; yet, there is a lack of data concerning their ADMET properties, due to their challenging isolation and detection. Furthermore, the beneficial effects of many dietary polyphenols on human health are partly attributed to their biotransformation occurring during colonic metabolism by human gut microbiota.

Since biotransformation studies of OLEO and OLEA are limited, we aimed towards a detailed investigation of their absorption, metabolism and microflora-dependent conversions, using the Gastro-Intestinal Dialysis Model with Colon (GIDM-Colon). This model is an optimized, validated in vitro continuous flow dialysis system, simulating the physiological conditions of the human GI tract, including human gut microbiota.

Throughout the GIDM-Colon model, biological samples were collected at crucial timepoints up to 24 h of colonic phase.

Overall, several new metabolites of OLEA and OLEO were identified incorporating statistical, chromatographic and spectrometric tools incorporating an LC-Orbitrap platform. The metabolism patterns seemed to differ greatly among the two compounds. Catechol group of OLEA, was more prone to biotransformation reactions while the elenolic part of both secoiridiods underwent extensive oxidation yielding oleocanthalic acid in both compounds. Oleocanthalic acid was detected during stomach and small intestine phase while managed to survive the 24h of colonic catabolism

Funding (PlantUp, 5002803)

Publikationsverlauf

Artikel online veröffentlicht:
13. Dezember 2021

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