posted on 2018-05-01, 00:00authored byPo-Sheng Wang, Ching-Hua Kuo, Hsin-Chou Yang, Yu-Jen Liang, Ching-Jang Huang, Lee-Yan Sheen, Wen-Harn Pan
Lipids account for a high proportion
of dietary calories, which
greatly affect human health. As a result of differences in composition
of fatty acid of individual cooking oils, certain biological effects
of these oils may vary. This study aimed to compare postprandial metabolomic
profiles of six commonly consumed cooking oils/fats. Adopting a switch-over
experimental design (n = 15), we carried out a human
feeding study with six groups (control without oils, soybean oil,
olive oil, palm oil, camellia oil, and tallow) and collected fasting
and postprandial serum samples. The metabolomic profile was measured
by ultra-high-pressure liquid chromatography–quadrupole time
of flight. We observed significant differences between the control
group and experimental groups for 33 serum metabolites (false discovery
rate; p < 0.05), which take part in lipid digestion,
fatty acid metabolism, metabolism of pyrimidines and pyrimidine nucleosides,
amino acid metabolism, neurobiology, and antioxidation. Sparse partial
least squares discriminant analysis revealed distinct metabolomics
patterns between monounsaturated fatty acid (MUFA) and saturated fatty
acid oils, between soybean oil, olive oil, and palm oil, and between
two MUFA-rich oils (olive and camellia oils). The present metabolomics
study suggests shared and distinct metabolisms of various cooking
oils/fats.