Comprehensive 16s rRNA sequencing and metabolomics to investigate the effect of anticancer bioactive peptides combined with oxaliplatin on gastric cancer

The occurrence and development of gastric cancer are closely related to the gut microbiota. Previous studies have found that the combination of anticancer bioactive peptides (ACBP) and oxaliplatin (OXA) has a significant therapeutic effect on gastric cancer. However, the impact of ACBP-OXA on the gut microbiota remains unclear. In this study, we established a nude mouse model of ACBP-OXA for gastric cancer and studied the diversity of gut microbiota and fecal metabolomics and the correlation between gut microbiota and metabolites. Here, we demonstrated that ACBP-OXA has a significant regulatory effect on the gut microbiota. 16s rRNA research has found that in the phylum, the relative abundance of Firmicutes and Bacteroidetes changed significantly after the ACBP-OXA group. Specifically, the relative abundance of Firmicutes decreased, while Bacteroidetes increased. In the genus, the relative abundance of the Lachnospiraceae NK4AB6 group decreased in the ACBP-OXA group, while the relative abundance of Odpribacter and Bacteroides increased. The relative abundance of Lactobacillus increased in the ACBP group, while the relative abundance of Staphylococcus decreased in the ACBP-OXA and OXA groups. GO and KEGG studies have found that the ACBP-OXA mechanism is related to metabolism and immunity. Through metabolomics research found that differential metabolites were associated with Neolignans and lipids that are involved in tyrosine metabolism, unsaturated fatty acid biosynthesis, and Phenylalanine metabolism α- Biological processes. Combining metabolomics with 16s rRNA sequencing, researchers discovered that amino acid-related metabolites are associated with bacterial genera such as Jetgalilicus, Staphylococcus, and Proteiniphilum. Taken together, the combination therapy of ACBP-OXA and ACBP-alone may improve and restore the gut microbiota of nude mice with gastric cancer by altering the distribution, diversity, and structure of the gut microbiota, which may be the key to inhibiting the occurrence and development of gastric cancer. This study provides a new direction for further research on the application of ACBP-OXA in the treatment of gastric cancer.