Abstract
In this work, different commercial extra-virgin olive oils (EVOO) were subjected to in vitro gastrointestinal digestion and the changes in bioactive compounds were evaluated by ultra-high-pressure liquid chromatography coupled with quadrupole-time-of-flight mass spectrometry, using untargeted metabolomics. As expected, raw EVOO samples were abundant in total sterols (on average: 3007.4 mg equivalents/kg) and tyrosol equivalents (on average: 334.1 mg equivalents/kg). However, the UHPLC-QTOF screening allowed us to annotate 309 compounds, with a large abundance of sterols (219 compounds), followed by polyphenols (67 compounds) and terpenoids. The in vitro gastrointestinal digestion was found to affect the phytochemical composition of the different EVOO samples. In particular, both unsupervised and supervised statistics depicted the modifications of the bioactive profile following gastric and pancreatic phases. Overall, the compounds which resulted as the most affected by the in vitro digestion were flavonoids (cyanidin and luteolin equivalents), whilst relatively high % bioaccessibility values were recorded for tyrosol equivalents during the pancreatic phase (on average, 66%). In this regard, oleuropein-aglycone (i.e., the major phenolic compound in EVOO) was converted to hydroxytyrosol, moving from an average value of 1.3 (prior to the in vitro digestion) up to 9.7 mg equivalents/kg during the pancreatic step. As proposed in the literature, the increase in hydroxytyrosol might be the result of the combined effect of lipase(s) activity and acidic conditions. Taken together, the present findings corroborate the suitability of untargeted metabolomics coupled to in vitro digestion methods to investigate the bioaccessibility of phenolic compounds. In this regard, a significant impact of in vitro gastrointestinal digestion on polyphenolic profiles has been detected, thus suggesting the need to account for actual bioaccessibility values rather than just considering the amounts in the raw commodity.
Highlights
Olive oil is one of the most important dietary components in the Mediterranean area
The International Olive Council has defined different grades according to chemical composition and degree of acidity, with the best brand corresponding to Extra-Virgin Olive Oil (EVOO)
We aimed to achieve a comprehensive compounds profiling, ultra-high-pressure liquid chromatography was coupled with a quadrupole-time-of-flight mass spectrometry (UHPLC-QTOF-MS) and multivariate statistical analysis was applied in order to highlight the compounds undergoing extensive changes during in vitro gastrointestinal digestion
Summary
Olive oil is one of the most important dietary components in the Mediterranean area. Regarding olive oil quality, the International Olive Council has defined different grades according to chemical composition and degree of acidity, with the best brand corresponding to Extra-Virgin Olive Oil (EVOO).Antioxidants 2020, 9, 302; doi:10.3390/antiox9040302 www.mdpi.com/journal/antioxidantsEVOO has been widely studied because of its effects in preventing several metabolic diseases and pathologies, such as atherosclerosis, cardiovascular diseases, serum lipoprotein levels, oxidative stress, obesity, type 2 diabetes, inflammation and cancer [1,2,3,4,5]. The International Olive Council has defined different grades according to chemical composition and degree of acidity, with the best brand corresponding to Extra-Virgin Olive Oil (EVOO). The health-promoting effects of EVOO are mainly related to its inherent chemical composition, such as the fatty acid profile [6] rather than other “minor” components (nearly 2% of the total weight). This quantitatively lower fraction includes more than 200 chemically different compounds belonging to aliphatic alcohols, terpenoids, sterols, pigments, volatile compounds and (poly)-phenolic compounds [7,8]. EVOO is reported to contain at least 30 phenolic compounds, including phenolic acids and derivatives, phenolic alcohols, secoiridoids, lignans and flavones [9,10,11]
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