1. Novel Angiotensin-Converting Enzyme-Inhibitory Peptides Obtained from Trichiurus lepturus : Preparation, Identification and Potential Antihypertensive Mechanism.
- Author
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Cao, Jiaming, Xiang, Boyuan, Dou, Baojie, Hu, Jingfei, Zhang, Lei, Kang, Xinxin, Lyu, Mingsheng, and Wang, Shujun
- Subjects
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PEPTIDES , *ANGIOTENSIN converting enzyme , *ALKALINE protease , *MOLECULAR docking , *ANGIOTENSIN I , *SYNTHETIC drugs , *FUNCTIONAL foods - Abstract
Peptides possessing antihypertensive attributes via inhibiting the angiotensin-converting enzyme (ACE) were derived through the enzymatic degradation of Trichiurus lepturus (ribbonfish) using alkaline protease. The resulting mixture underwent filtration using centrifugation, ultrafiltration tubes, and Sephadex G-25 gels. Peptides exhibiting ACE-inhibitory properties and DPPH free-radical-scavenging abilities were isolated and subsequently purified via LC/MS-MS, leading to the identification of over 100 peptide components. In silico screening yielded five ACE inhibitory peptides: FAGDDAPR, QGPIGPR, IFPRNPP, AGFAGDDAPR, and GPTGPAGPR. Among these, IFPRNPP and AGFAGDDAPR were found to be allergenic, while FAGDDAPRR, QGPIGPR, and GPTGPAGP showed good ACE-inhibitory effects. IC50 values for the latter peptides were obtained from HUVEC cells: FAGDDAPRR (IC50 = 262.98 μM), QGPIGPR (IC50 = 81.09 μM), and GPTGPAGP (IC50 = 168.11 μM). Peptide constituents derived from ribbonfish proteins effectively modulated ACE activity, thus underscoring their therapeutic potential. Molecular docking and modeling corroborated these findings, emphasizing the utility of functional foods as a promising avenue for the treatment and prevention of hypertension, with potential ancillary health benefits and applications as substitutes for synthetic drugs. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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