Flaxseed-derived peptide, IPPF, inhibits intestinal cholesterol absorption in Caco-2 cells and hepatic cholesterol synthesis in HepG2 cells.

Abstract

Flaxseed peptides reduced serum cholesterol levels in Sprague-Dawley rats fed with a high-cholesterol diet. However, the mechanism of this action remains unclear. Flaxseed-hydrolyzed proteins were separated through ultrafiltration. The fifth fraction (FP₅, ≤ 1 kDa) had the highest cholesterol micelle solubility inhibition rate (CMSR) of 72.39% among the other fractions. Eleven peptides were identified from FP₅. Ile-Pro-Pro-Phe (IPPF), which had the highest CMSR of 93.47%, was selected for further analyses. IPPF substantially reduced the cholesterol transported content in Caco-2 cells and the total cholesterol content in HepG2 cells. Moreover, IPPF modulated the protein levels of NCP1L1 and ABCG5/8 (cholesterol transporters) in Caco-2 cells and reduced the mRNA levels of Srebp-2 and Hmgcr (cholesterol synthesis enzymes) in HepG2 cells. IPPF inhibits cholesterol intestinal absorption by modulating the cholesterol transporters expression and reduces hepatic cholesterol synthesis by inhibiting the SREBP2-regulated mevalonate pathway. IPPF is a new food-derived cholesterol-lowering nutritional supplement. PRACTICAL APPLICATIONS: We isolated active peptides with cholesterol-lowering properties from flaxseed protein, a by-product of industrial oil production, which greatly improved the economic and medicinal value of flaxseed protein. According to our research, IPPF can be used as a new food-derived type of cholesterol intestinal absorption inhibitor to reduce dietary cholesterol absorption and cholesterol synthesis inhibitor (same pharmacological mechanism as statins). IPPF provide a nutritional therapy component for hypercholesterolemia and prevent atherosclerosis. Our research provides theoretical basis for development and utilization of new nutritional supplements and plant proteins.