Combining in silico and in vitro approaches to identify endogenous hypoglycemic peptides from human milk.
Ting XiaoJunpeng ZengLeyun QiuRuiyan WangNan LiZe-Yuan DengLiufeng ZhengPublished in: Food & function (2022)
Potential endogenous hypoglycemic peptides derived from breast milk were screened by in silico approaches against intestinal glucose absorption- and metabolism-related membrane proteins ( i.e. , SGLT1, ATPase, and GPR40), and their inhibitory effects on glucose uptake were compared using the human intestinal epithelial Caco-2 cell model. A total of 762 endogenous peptides were obtained from breast milk, and 5 peptides (YPFVEPIPYGFL, LLNQELLLNPTHQIYPV, SPTIPFFDPQIPK, QHWSYGLRPG, and YPVTQPLAPVHNPIS) were shortlisted based on PeptideRanker and HPEPDOCK scores. Further flow cytometer analysis of 2-NBDG uptake showed the remarkable ability of these five peptides to inhibit glucose uptake, in particular YPVTQPLAPVHNPIS. More importantly, the in silico and in vitro gastrointestinal digestion of YPVTQPLAPVHNPIS combined with LC-QTOF-MS/MS demonstrated that the resulting hexapeptide PVTQPL had strong inhibitory activity on glucose uptake and transport (57% and 13% inhibition, respectively). Molecular docking indicated that PVTQPL bound to SGLT1 by forming two hydrogen bonds with Trp257 through the NH 2 group and Ile253 through the carbonyl group, ATPase with Phe139 via one arene-H interaction, and GPR40 with Thr39, Ser41, Arg104, Arg2218 and Arg2221 residues through eight hydrogen interactions of its carbonyl groups and hydroxyl groups. The findings of this work open up the possibility of employing endogenous peptides from human milk as the hypoglycemic compounds for the prevention and treatment of diabetes.
Keyphrases
- molecular docking
- human milk
- ms ms
- low birth weight
- amino acid
- blood glucose
- molecular dynamics simulations
- type diabetes
- endothelial cells
- minimally invasive
- fatty acid
- blood pressure
- single cell
- metabolic syndrome
- risk assessment
- insulin resistance
- human health
- room temperature
- simultaneous determination
- liquid chromatography tandem mass spectrometry
- combination therapy
- solid phase extraction
- induced pluripotent stem cells
- metal organic framework
- ionic liquid