Anti-Inflammatory Function Analysis of Lacticaseibacillus rhamnosus CP-1 Strain Based on Whole-Genome Sequencing.

IF 2.7 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

BioTech Pub Date : 2025-06-07 DOI:10.3390/biotech14020047

Hanyu Chu, Lijie Zhou, Yanzhen Mao, Ren Liu, Jiaojiao Han, Xiurong Su, Jun Zhou

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Abstract

Lacticaseibacillus rhamnosus (L. rhamnosus) is a safe probiotic with no side effects, providing benefits such as gut microbiota regulation and immune enhancement, making it highly valuable with strong potential. However, strains from different sources have unique traits, and whole-genome sequencing (WGS) helps analyse these differences. In this study, we used WGS to examine L. rhamnosus strains from mice with fish oil-treated smoking-induced pneumonia to better understand their biological functions and explore possible anti-inflammatory mechanisms.

Methods: We isolated a strain, Lacticaseibacillus rhamnosus CP-1 (L. rhamnosus CP-1), from mice intestines where fish oil alleviated smoking-induced pneumonia. Identification of probiotic-related genes by WGS and characterised the strain's probiotic properties.

Results: L. rhamnosus CP-1 has a single circular chromosome (2,989,570 bp, 46.76% GC content) and no plasmids. COG, GO, and KEGG databases revealed genes linked to carbohydrate metabolism. The CAZy database identified GH25 lysozyme and PL8 polysaccharide lyase genes. KEGG highlighted an antimicrobial peptide ABC transporter permease, while TCDB noted the ABC-type antimicrobial peptide transporter (the main active transport component). KEGG also showed 10 genes for terpenoid skeleton biosynthesis and 5 for keto-glycan unit biosynthesis. Additionally, L. rhamnosus CP-1 carries metabolic regulators and bacteriocin-related genes.

Conclusions: Whole-genome sequencing analysis revealed that L. rhamnosus CP-1 has carbohydrate utilisation and potential anti-inflammatory effects at the molecular level. Potential functional genes include carbohydrate transport and hydrolase, antimicrobial peptide ABC transporter and its osmotic enzyme components, bacteriocin immune protein, terpenoid skeleton, and keto-glycan synthesis.

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基于全基因组测序的鼠李糖乳杆菌CP-1株抗炎功能分析

鼠李糖乳杆菌（lactoaseibacillus rhamnosus， L. rhamnosus）是一种安全无副作用的益生菌，具有调节肠道菌群、增强免疫力等功效，价值极高，潜力巨大。然而，来自不同来源的菌株具有独特的性状，全基因组测序（WGS）有助于分析这些差异。在本研究中，我们使用WGS检测了来自鱼油处理的吸烟性肺炎小鼠的鼠李糖乳杆菌菌株，以更好地了解其生物学功能并探索可能的抗炎机制。方法：从鼠李糖乳杆菌CP-1 （L. rhamnosus CP-1）小鼠肠道中分离出一株鱼油对吸烟性肺炎的缓解作用。利用WGS鉴定益生菌相关基因，并对菌株的益生菌特性进行了表征。结果：鼠李糖CP-1染色体为单条环状染色体（2,989,570 bp， GC含量46.76%），无质粒。COG、GO和KEGG数据库揭示了与碳水化合物代谢相关的基因。CAZy数据库鉴定出GH25溶菌酶和PL8多糖裂解酶基因。KEGG强调了抗菌肽ABC转运体渗透酶，而TCDB则强调了ABC型抗菌肽转运体（主要的活性转运成分）。KEGG还发现了10个萜类骨架生物合成基因和5个酮聚糖单位生物合成基因。此外，鼠李糖CP-1携带代谢调节因子和细菌素相关基因。结论：全基因组测序分析显示鼠李糖多糖CP-1在分子水平上具有碳水化合物利用和潜在的抗炎作用。潜在的功能基因包括碳水化合物转运和水解酶、抗菌肽ABC转运蛋白及其渗透酶组分、细菌素免疫蛋白、萜类骨架和酮聚糖合成。

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