COX-2 Inhibition by Bioactive Peptides from Peanut Worm (Siphonosoma australe) Collagen Through in vitro Digestion Simulation.

IF 2.5 4区农林科学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Food Technology and Biotechnology Pub Date : 2025-07-01 Epub Date: 2025-08-31 DOI:10.17113/ftb.63.03.25.8691

Suwarjoyowirayatno, Chusnul Hidayat, Tutik Dwi Wahyuningsih, Retno Indrati

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引用次数: 0

Abstract

Research background: Chronic, unregulated inflammation is a crucial factor in the development of numerous diseases and is closely linked to the increased expression of cyclooxygenase-2 (COX-2). While various bioactive peptides from marine organisms have shown COX-2 inhibitory effects, peptides derived from the collagen of the peanut worm (Siphonosoma australe) have not yet been demonstrated. The aim of this study is to investigate the potential COX-2 inhibitory activity of peanut worm collagen by simulated digestion in vitro with pepsin-pancreatin followed by molecular docking.

Experimental approach: During simulated in vitro digestion, commercial pepsin (at pH=3) and pancreatin (at pH=7.5) were applied for 240 min at 37 °C to evaluate the degree of hydrolysis, peptide concentration and COX-2 inhibitory activity. The samples with the most significant COX-2 inhibitory activity were then separated into fractions and identified.

Results and conclusions: The 210-minute simulated digestion in vitro showed the highest COX-2 inhibitory activity (64.31 %). This result was confirmed by the increased degree of hydrolysis (DH) and peptide concentrations observed during the simulated in vitro digestion. The peptide fraction of <1 kDa had the highest inhibitory activity (89.05 %) and was subsequently subjected to sequencing analysis. Three novel peptides, ADIAGQAAQVLR, LNNEITTLR and VGTVEK, were identified and confirmed to contain crucial amino acids and therefore verified as COX-2 inhibitors. VGTVEK has the most potent interaction, as shown by the lowest binding energy (-4.41 kcal/mol). The molecular docking revealed that VGTVEK (631.35 Da) binds to the active site of COX-2 and forms hydrogen bonds with Gln178, Leu338, Ser339, Tyr371, Ile503, Phe504, Val509 and Ser516 and hydrophobic interactions with Met99, Val102, Val330, Ile331, Tyr334, Val335, Leu345, Trp373, Leu517 and Leu520. Other biological activities of the produced peptides included ACE inhibitors, dipeptidyl peptidase-IV (DPP-IV) inhibitors and α-glucosidase inhibitors. After toxicity prediction, the peptides were classified as non-toxic.

Novelty and scientific contribution: The study found that peptides derived from peanut worm collagen have the potential to be novel, natural agents for anti-inflammatory therapy. Their broader application in functional foods, nutraceuticals and pharmaceuticals could provide new options for people suffering from inflammation and support both treatment and maintenance of overall health.

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花生蠕虫胶原蛋白活性肽体外消化模拟对COX-2的抑制作用

研究背景：慢性、不受调节的炎症是许多疾病发展的关键因素，与环氧化酶-2 （COX-2）表达增加密切相关。虽然来自海洋生物的多种生物活性肽已显示出抑制COX-2的作用，但来自花生蠕虫（Siphonosoma australe）胶原蛋白的肽尚未得到证实。本研究的目的是通过胃蛋白酶-胰酶模拟体外消化并进行分子对接，研究花生蠕虫胶原蛋白对COX-2的潜在抑制活性。实验方法：在模拟体外消化过程中，将商业胃蛋白酶（pH=3）和胰蛋白酶（pH=7.5）在37℃下作用240 min，以评估水解程度、肽浓度和COX-2抑制活性。对抑制COX-2活性最显著的样品进行分离鉴定。结果与结论：体外模拟消化210分钟对COX-2的抑制活性最高（64.31%）。在模拟体外消化过程中观察到的水解程度（DH）和肽浓度的增加证实了这一结果。肽部分的新颖性和科学贡献：研究发现，从花生蠕虫胶原蛋白中提取的肽有潜力成为抗炎治疗的新型天然药物。它们在功能性食品、保健品和药品中的广泛应用可以为患有炎症的人提供新的选择，并支持治疗和维持整体健康。

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来源期刊

Food Technology and Biotechnology 工程技术-生物工程与应用微生物

CiteScore

3.70

自引率

0.00%

发文量

审稿时长

12 months

期刊介绍： Food Technology and Biotechnology (FTB) is a diamond open access, peer-reviewed international quarterly scientific journal that publishes papers covering a wide range of topics, including molecular biology, genetic engineering, biochemistry, microbiology, biochemical engineering and biotechnological processing, food science, analysis of food ingredients and final products, food processing and technology, oenology and waste treatment. The Journal is published by the University of Zagreb, Faculty of Food Technology and Biotechnology, Croatia. It is an official journal of Croatian Society of Biotechnology and Slovenian Microbiological Society, financed by the Croatian Ministry of Science and Education, and supported by the Croatian Academy of Sciences and Arts.