Wang_2024_J.Agric.Food.Chem_72_2145

Reference

Title : Hydrolysis and Transport Characteristics of Phospholipid Complex of Alkyl Gallates: Potential Sustained Release of Alkyl Gallate and Gallic Acid - Wang_2024_J.Agric.Food.Chem_72_2145
Author(s) : Wang Q , Wang X , Cai D , Yu J , Chen X , Niu W , Wang S , Liu X , Zhou D , Yin F
Ref : Journal of Agricultural and Food Chemistry , 72 :2145 , 2024
Abstract :

Phospholipid complexes of alkyl gallates (A-GAs) including ethyl gallate (EG), propyl gallate (PG), and butyl gallate (BG) were successfully prepared by the thin film dispersion method. HPLC-UV analysis in an everted rat gut sac model indicated that A-GAs can be liberated from phospholipid complexes, which were further hydrolyzed by intestinal lipase to generate free gallic acid (GA). Both A-GAs and GA are able to cross the membrane, and the hydrolysis rate of A-GAs and the transport rate of GA are positively correlated with the alkyl chain length. Especially, compared with the corresponding physical mixtures, the phospholipid complexes exhibit slower sustained-release of A-GAs and GA. Therefore, the formation of phospholipid complexes is an effective approach to prolong the residence time in vivo and additionally enhance the bioactivities of A-GAs and GA. More importantly, through regulating the carbon skeleton lengths, controlled-release of alkyl gallates and gallic acid from phospholipid complexes will be achieved.

PubMedSearch : Wang_2024_J.Agric.Food.Chem_72_2145
PubMedID: 38226868

Related information

Substrate Butyl-gallate    Tyr-DHA

Citations formats

Wang Q, Wang X, Cai D, Yu J, Chen X, Niu W, Wang S, Liu X, Zhou D, Yin F (2024)
Hydrolysis and Transport Characteristics of Phospholipid Complex of Alkyl Gallates: Potential Sustained Release of Alkyl Gallate and Gallic Acid
Journal of Agricultural and Food Chemistry 72 :2145

Wang Q, Wang X, Cai D, Yu J, Chen X, Niu W, Wang S, Liu X, Zhou D, Yin F (2024)
Journal of Agricultural and Food Chemistry 72 :2145