The Efficacy of Anti-proteolytic Peptide R7I in Intestinal Inflammation, Function, Microbiota, and Metabolites by Multi-omics Analysis in Murine Bacterial Enteritis

Overview

Journal Bioeng Transl Med

Date 2023 Mar 17

PMID 36925697

Authors

Taotao Sun

Xuesheng Liu

Yunzhe Su

Zihang Wang

Baojing Cheng

Na Dong

Jiajun Wang

Anshan Shan

Affiliations

Soon will be listed here.

Abstract

Increased antibiotic resistance poses a major limitation in tackling inflammatory bowel disease and presents a large challenge for global health care. Antimicrobial peptides (AMPs) are a potential class of antimicrobial agents. Here, we have designed the potential oral route for antimicrobial peptide R7I with anti-proteolytic properties to deal with bacterial enteritis in mice. The results revealed that R7I protected the liver and gut from damage caused by inflammation. RNA-Seq analysis indicated that R7I promoted digestion and absorption in the small intestine by upregulating transmembrane transporter activity, lipid and small molecule metabolic processes and other pathways, in addition to upregulating hepatic steroid biosynthesis and fatty acid degradation. For the gut microbiota, were significantly reduced in the R7I-treated group, and , an efficient isoalloLCA-synthesizing strain, was the main dominant strain, protecting the gut from potential pathogens. In addition, we further discovered that R7I reduced the accumulation of negative organic acid metabolites. Overall, R7I exerted better therapeutic and immunomodulatory potential in the bacterial enteritis model, greatly reduced the risk of disease onset, and provided a reference for the in vivo application of antimicrobial peptides.

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