The gut microbiota (GM) can affect the immune system, which can lead to a variety of diseases, as confirmed by many studies. However, the exact mechanism by which GM affects kidney stone incidence through the immune system remains unclear. This study used a two-step, two-sample Mendelian randomization (MR) analysis by inverse variance weighting (IVW) method as well as Bayesian weighting (BWMR) to find out how the gut microbiota and inflammatory cytokines contribute to kidney stones, followed by a mediated MR analysis to exploreHow inflammatory cytokines are involved in the connection with the gut microbiota and kidney stones. MR analysis revealed that seven intestinal flora were protective against kidney stones, including family. Actinomycetaceae, family.Clostridiaceae1, genus.Clostridiumsensustricto1, genus. Hungatella, genus.LachnospiraceaeUCG001, genus.LachnospiraceaeUCG008 and order. Actinomycetales, while four intestinal flora, including genus. Haemophilus, genus. RuminococcaceaeUCG010, order.Rhodospirillales and phylum.Actinobacteria may increase the risk of kidney stones. In addition, it was confirmed that seven Inflammatory cytokines DNER, IL-18, IL-1α, SLAMF1, STAMPB, CST5 and FGF-5 in association with kidney stones. Notably, the mediating MR indicated the causal effect of phylum. Actinobacteria and order. Rhodospirillales gut group on kidney stones was mainly modulated by IL-18 levels, with mediating effects accounting for 15.8% and 12.8% of the total effect, respectively. The present study demonstrates this phylum. Actinobacteria and order. Rhodospirillales flora have an important role in reducing the risk of kidney stones and act mainly by modulating IL-18 levels.
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