Enhanced protective effect of selenium-biofortified peptide RYNA(Se)MNDYT compared with its native peptide RYNAMNDYT in lipopolysaccharide-injured murine gut microbiota

IF 7.4 1区农林科学 Q1 FOOD SCIENCE & TECHNOLOGY

Food Science and Human Wellness Pub Date : 2024-11-01 DOI:10.26599/FSHW.2023.9250024

Shujian Wu , Zhenjun Zhu , Mengfei Chen , Aohuan Huang , Yizhen Xie , Jiaming Chen , Liang Xue , Moutong Chen , Jumei Zhang , Juan Wang , Qingping Wu , Yu Ding

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Abstract

Selenopeptides may be a valuable bioactive compound to promote gut microbiota-targeted therapeutic methods for intestinal disease and hepatopathy. However, limited information is available on the utilization of selenopeptides by gut microbiota, especially Selenium (Se) function. For this purpose, the present study aimed to investigate the protective effect of selenopeptide (RYNA(Se)MNDYT, Se-P2, purity of ≥ 95 %) and its original peptide (RYNAMNDYT, P2, purity of ≥ 95 %) in vivo by the microbiota-metabolite axis and further analyze the potential contribution of Se biofortification to Se-P2 bioactivity. The results showed that Se-P2 exhibits a higher protective effect on lipopolysaccharide (LPS)-induced inflammation than P2, including pathology of the colon and liver, which suggested that the bioactivity of P2 was promoted by the organic combination of Se. Notably, gut microbiota composition tended to be a healthy structure by Se-P2 pretreatment in LPS-injured mice, which had a positive effect on LPS-induced gut microbiota dysbacteriosis. Additionally, only Se-P2 promoted an increase in the relative abundance of Lactobacillus, Alistipes, and Roseburia and a decrease in the relative abundance of Akkermansia, Erysipelatoclostridium, and Bacteroides in LPS-injured mice. The changes in gut microbiota were obviously correlated with the changes in metabolites and affected the metabolic pathways of valine, leucine, isoleucine, phenylalanine, tyrosine, and tryptophan biosynthesis and phenylalanine metabolism. This may be one of the key reasons for Se-P2 to exert bioactivity through the microbiota-metabolite axis. Furthermore, Se-biofortification in Se-enriched Cordyceps militaris affected the parental proteins of Se-P2 to modulate mitogen-activated protein kinase, GPI anchored protein, and carbohydrate metabolism, translation, folding, sorting and degradation, which may contribute to the bioactivity of Se-P2. Our study provides information on the effect of Se on selenopeptides in vivo, which further promotes the prospective applications of selenopeptides as dietary supplements.

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与原生肽 RYNAMNDYT 相比，硒生物强化肽 RYNA(Se)MNDYT 对 LPS 损伤的小鼠肠道微生物群具有更强的保护作用

硒肽可能是一种有价值的生物活性化合物，可促进肠道微生物靶向治疗肠道疾病和肝病。然而，关于硒肽在肠道微生物群中的利用，特别是硒（Se）功能方面的信息有限。为此，本研究旨在通过微生物代谢轴研究硒肽（RYNA(Se)MNDYT, Se-P2，纯度≥95%）及其原肽（RYNAMNDYT, P2，纯度≥95%）在体内的保护作用，并进一步分析硒生物强化对Se-P2生物活性的潜在贡献。结果表明，Se-P2对脂多糖（LPS）诱导的炎症表现出比P2更高的保护作用，包括结肠和肝脏的病理变化，表明Se的有机结合促进了P2的生物活性。值得注意的是，通过硒- p2预处理，lps损伤小鼠的肠道菌群组成趋于健康结构，这对lps诱导的肠道菌群失调有积极作用。此外，只有Se-P2促进了lps损伤小鼠中乳酸杆菌、Alistipes和Roseburia的相对丰度增加，Akkermansia、丹毒弧菌和拟杆菌的相对丰度降低。肠道菌群的变化与代谢产物的变化有明显的相关性，影响了缬氨酸、亮氨酸、异亮氨酸、苯丙氨酸、酪氨酸和色氨酸的生物合成和苯丙氨酸代谢的代谢途径。这可能是Se-P2通过微生物代谢轴发挥生物活性的关键原因之一。此外，富硒蛹虫草的硒生物强化可以影响Se-P2亲本蛋白，从而调节丝裂原活化蛋白激酶、GPI锚定蛋白以及碳水化合物代谢、翻译、折叠、分选和降解，这可能有助于Se-P2的生物活性。本研究为硒对体内硒肽的影响提供了信息，进一步促进了硒肽作为膳食补充剂的应用前景。

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来源期刊

Food Science and Human Wellness Agricultural and Biological Sciences-Food Science

CiteScore

8.30

自引率

5.70%

发文量

审稿时长

28 days

期刊介绍： Food Science and Human Wellness is an international peer-reviewed journal that provides a forum for the dissemination of the latest scientific results in food science, nutriology, immunology and cross-field research. Articles must present information that is novel, has high impact and interest, and is of high scientific quality. By their effort, it has been developed to promote the public awareness on diet, advocate healthy diet, reduce the harm caused by unreasonable dietary habit, and directs healthy food development for food industrial producers.