Identification of an angiotensin I-converting enzyme inhibitory peptides from protein hydrolysates by a soybean protease and the antihypertensive effects of hydrolysates in spontaneously hypertensive model rats

Our previous study demonstrated that, because of its substrate specificity, protein hydrolysates by protease 133, which is originated from soybean, exhibited the prominent property of being less bitter than other enzymatic hydrolysates. In the 1st experiment in this series, angiotensin I-converting enzyme (ACE) inhibitory peptides from soy protein hydrolysate by D3 were identified by the establishment of a novel and effective peptide identification method. The amino acid sequences of candidate ACE inhibitory peptides were determined by electrospray ionization mass/mass spectrometry (MS/MS) analysis after rough purification of the samples with gel filtration chromatography and reverse-phase chromatography. Some of the candidate peptides had amino acid sequences that showed homology with those of the reported ACE inhibitory peptides. Then, 8 types of novel candidate peptides were synthesized according to a solid-phase method, and their ACE inhibitory activity was confirmed as the IC50 value. The most potent inhibitor was NWGPLV (IC50 = 21 mu M). In the 2nd experiment, the antihypertensive activity of protein hydrolysates by D3 was investigated in spontaneously hypertensive model rats (SHRs). The dose-dependent antihypertensive effect of soy protein hydrolysate was confirmed, and systolic blood pressure was significantly reduced after the oral administration of doses exceeding 100 mg/kg. Casein hydrolysate was found to have the most potent effects on suppressing blood pressure as well as ACE inhibitory activity among the various food protein hydrolysates studied because of the primary structure of casein. These results indicate that hydrolysates by D3 could be a useful food ingredient because it has the physiological function (antihypertensive activity).