Structure-dependent absorption of sphingolipid long-chain bases from the digestive tract into lymph
Abstract Background:Dietary sphingolipids have various biofunctions, including skin barrier improvement, anti-inflammatory and anti-carcinoma properties. Long-chain bases (LCBs), the essential backbones of sphingolipids, are responsible for these bioactivities, and they vary structurally between species. Given these findings, however, the absorption dynamics of each LCB remain unclear.Methods:In this study, five structurally different LCBs were isolated and their absorption ratios and levels of their metabolites were analyzed using a lymph-duct-cannulated rat model by liquid chromatography tandem mass spectrometry (LC/MS/MS) with a novel multistage fragmentation method.Results:The five orally administered LCBs were absorbed and detected in lymph as free LCBs and several metabolites including ceramides, glucosylceramides, and sphingomyelins. The absorption rates of LCBs were 0.10-1.17% depending on their structure. The absorption rate of 4-trans,8-cis-sphingadienine was highest (1.17%), whereas that of 4-trans,8-trans,10-trans-sphingatrienine was lowest (0.10%). The amount of 4-trans,8-cis-sphingadienine-bound sphingomyelin in lymph was particularly higher than other four LCB-bound sphingomyelins.Conclusion:Structural differences among LCBs, particularly the geometric isomerism at the C8–C9 position, significant affect the absorption rate and amounts of metabolites. This is the first report revealed that the absorption rate and metabolism of sphingolipids are dependent on their LCB structure.