2022-12-11
Recently, Professor Fan Junfeng and his team from The Department of Food Science and Technology of the College of Biological Sciences and Biotechnology published a paper entitled "The interfacial destabilization of bile salt-emulsified oil droplets, essential for lipase function, is mediated by Lycium barbarum L. leaf polysaccharides" in the top international journal “Food Hydrocolloids” (IF:11.504). The findings of the paper provided novel insights into the effects of plant-sourced polysaccharides on fat digestion from an interface chemistry perspective, and in particular, they deepened our understanding of polysaccharide interactions with intestine-secreted lipid digestants.
A bile salt (BS)-stabilized water/oil interface is a prerequisite for the pancreas lipase (PL) mediated hydrolyzation of triacylglycerol. Previous fat digestion research mainly focused on direct lipase inhibition by bioactive substances while ignoring the destructive role of these substances on BS-stabilized lipid emulsions. Here, we showed that polysaccharides (LP) weakly suppressed PL but destroyed BS-stabilized emulsions and thus inhibited free fatty acid (FFA) release. Physicochemical analysis showed that LP actions toward emulsion stability were mainly due to endogenous minerals (28%) in LP which affected aggregation and amphiphilic properties of BS-polysaccharide composites. This was evidenced by high wettability and low interfacial tension in demineralized polysaccharide and BS composites, with three phase contact angles which were identified as 80.4° and 95.6° as well as interfacial tensions as 9.26 and 9.37 mN/m, respectively. However, the low wettability, which was detected as 76.2° and 78.6° as well as high interfacial tension as 10.77 and 11.02 mN/m, respectively, was only observed in mineral-containing polysaccharides and BS composites. Further investigations showed that interactions with mineral-containing polysaccharides occupied hydrophobic sites in BS thereby elevating composite hydrophilicity. These findings provided novel insights into the effects of plant-sourced polysaccharides on fat digestion from an interface chemistry perspective, and in particular, they deepened our understanding of polysaccharide interactions with intestine-secreted lipid digestants.
The first author of this paper is Zhang Na, a master student at the College of Biological Sciences and Biotechnology of BFU with Professor Fan Junfeng as the corresponding author and Professors Han Xue, Yu Rumeng, Tang Xiaomin, Zhang Bo, Yin Xiaoyu and Zhang Bolin as the co-authors.
