维管菌
染色体易位
微生物学
生物
恶化
基因
生物标志物
发病机制
慢性肝病
微生物群
免疫学
链球菌
疾病
失调
病例对照研究
肝病
医学
唾液
无症状的
基因组
胶原酶
病理
生理学
链球菌科
微阵列
基因表达调控
作者
Shen Jin,Aurélie Cenier,D. Wetzel,Bethlehem Arefaine,Mar Moreno-Gonzalez,Marilena Stamouli,Merianne Mohamad,Mariia Lupatsii,Emilio García Ríos,Sunjae Lee,Ane Zamalloa,Shilpa Chokshi,Adil Mardinoglu,Saeed Shoaie,Naiara Beraza,Vishal C. Patel,Melanie Schirmer
标识
DOI:10.1038/s41564-025-02223-0
摘要
Microbiome perturbations are associated with advanced chronic liver disease (ACLD), but how microorganisms contribute to disease mechanisms is unclear. Here we analysed metagenomes of paired saliva and faecal samples from an ACLD cohort of 86 individuals, plus 2 control groups of 52 healthy individuals and 14 patients with sepsis. We identified highly similar oral and gut bacterial strains, including Veillonella and Streptococcus spp., which increased in absolute abundance in the gut of patients with ACLD compared with controls. These microbial translocators uniquely share a prtC gene encoding a collagenase-like proteinase, and its faecal abundance was a robust ACLD biomarker (area under precision-recall curve = 0.91). A mouse model of hepatic fibrosis inoculated with Veillonella and Streptococcus prtC-encoding patient isolates showed exacerbation of gut barrier impairment and hepatic fibrosis. Furthermore, faecal collagenase activity was increased in patients with ACLD and experimentally confirmed for the prtC gene of translocating Veillonella parvula. These findings establish mechanistic links between oral-gut translocation and ACLD pathobiology.
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