The Effect of Cucumaria frondosa Tentacles Hydrolysates on Dextran Sulfate Sodium-Induced Colitis: Integrated Metagenomics and Metabolomics Analysis.
Senyu Zhang, Qiuting Wang, Shunmin Gong, Mingbo Li, Yu Zhang, Leilei Sun, Liqin Sun
Abstract
Open AccessInflammatory bowel disease continues to pose substantial therapeutic challenges in modern gastroenterology. This study systematically evaluated the anti-colitis efficacy of Cucumaria frondosa tentacles hydrolysates (CFTHs) using a dextran sulfate sodium (DSS)-induced murine colitis model. Characterized by enhanced stability and solubility with molecular weights below 1000 Da, administration of CFTHs demonstrated a significant mitigation in colitis pathology. Therapeutic outcomes included an improved splenic index, attenuated colonic mucosal damage, and substantial decreases in serum pro-inflammatory cytokines. Relative to the DSS group, the MPO value in the CFTHs-H group decreased by 27.6%, and the IL-6 value exhibited a reduction of 33%. Metagenomic profiling revealed that CFTHs mediated gut microbiota modulation, particularly the enrichment of beneficial Bacteroidetes and suppression of pro-inflammatory Proteobacteria. Metabolomic analysis identified elevated colonic concentrations of anti-inflammatory metabolites such as gamma-linolenic acid and prostaglandin I2, suggesting a microbiome-metabolome crosstalk in the therapeutic mechanism. These multi-omics findings in a murine model suggest that CFTHs may represent a promising candidate for future studies as a nutraceutical intervention for inflammatory bowel disorder. This intervention may operate through mechanisms that include simultaneous immunomodulation, microbiota restoration, and metabolic reprogramming.