Regulating fat globule structure of infant formula based on MFGM to promote lipid uptake by improving lipolysis

The digestive behavior and absorption properties of lipids are affected by differences in the interface structures of fat globules in human milk (HM) and infant formula. However, it is not clear how the interface changes of fat globules further regulate lipid uptake by improving lipid digestion. Bas...

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Bibliographic Details
Published in:Food hydrocolloids 2024-10, Vol.155, p.110167, Article 110167
Main Authors: Sun, Yue, Zhu, Bin, Cong, Pingyao, Li, Xiaodong, Liu, Lu, Guo, Chanchan, Zhao, Kuangyu, Qiu, Jiaxin, Ji, Haowen, Zhu, Xiaojun, Eric-Parfait Kouame, Kouadio Jean
Format: Article
Language:English
Subjects:
Absorption
Digestion
Infant formula emulsion
Interface structure
Milk fat globule membrane (MFGM)
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Summary:The digestive behavior and absorption properties of lipids are affected by differences in the interface structures of fat globules in human milk (HM) and infant formula. However, it is not clear how the interface changes of fat globules further regulate lipid uptake by improving lipid digestion. Based on the milk fat globule membrane (MFGM) and milk protein, two infant formula emulsions with different interface structures (F1: MFGM-stabilized emulsion, F2: whey protein and casein-stabilized emulsion) were prepared to simulate HM fat globules. The interface structure of lipid droplets, digestion behavior and absorption characteristic of lipids in infant formula emulsions were evaluated and compared with those of HM and commercial infant formula (IFM: supplied with MFGM). The results showed that MFGM-stabilized fat globules in F1 had a similar interface structure to HM. F1 could alleviate the coalescence and aggregation of lipid and protein in comparison with F2 and IFM. The order of triglyceride secretion from high to low was: HM (51.63 ± 2.0 μmol/L), F1 (45.19 ± 1.7 μmol/L), F2 (35.28 ± 1.3 μmol/L) and IFM (32.23 ± 1.3 μmol/L), indicating that HM and F1 exhibited faster lipid digestion and more chylomicron secretion. The expression of SLC27A4, FABP2, SCARB1, DGAT2, PLIN2, and MOGAT2 in HM and F1 was significantly higher than in F2 and IFM. Altogether, the simulation of HM fat globule at the interface structure based on MFGM could better promote cellular lipid uptake by influencing the digestion behavior of fat globules. [Display omitted] •The interface phospholipid and protein load in F1 were closer to that in HM.•F1 could alleviate coalescence and aggregate of lipid and protein during digestion.•F1 and HM had more chylomicron secretion and higher gene expression than F2 and IFM.•Compared to F2 and IFM, F1 and HM had similar digestion behavior and absorptivity.•HM and F1 could promote lipid uptake by influencing lipid digestion.
ISSN:0268-005X
1873-7137
DOI:10.1016/j.foodhyd.2024.110167