Lee S, Arefaine B, Begum N, Stamouli M, Witherden E, Mohamad M, Harzandi A, Zamalloa A, Cai H, Williams R, Curtis M, Edwards LA, Chokshi S, Mardinoglu A, Proctor G, Moyes D, McPhail MJ, Shawcross DL, Uhlen M, Shoaie S, Patel VC
J Hepatol - (-) - [2024-10-22; online 2024-10-22]
Cirrhosis complications are often triggered by bacterial infections with multidrug-resistant organisms. Alterations in the gut and oral microbiome in decompensated cirrhosis (DC) influence clinical outcomes. We interrogated: (i) gut and oral microbiome community structures, (ii) virulence factors (VFs) and antimicrobial resistance genes (ARGs) and (iii) oral-gut microbial overlap in patients with differing cirrhosis severity. 15 healthy controls (HC), 26 stable cirrhosis (SC), 46 DC, 14 acute-on-chronic liver failure (ACLF) and 14 with severe infection without cirrhosis (NLS) participated. Metagenomic sequencing was undertaken on paired saliva (S) and faecal (F) samples. 'Salivatypes' and 'enterotypes' based on genera clustering were assessed against cirrhosis severity and clinical parameters. VFs and ARGs were evaluated in oral and gut niches, and distinct resistotypes identified. Salivatypes and enterotypes revealed a greater proportion of pathobionts with concomitant reduction in autochthonous genera with increasing cirrhosis severity and hyperammonaemia. Increasing overlap between oral and gut microbiome communities was observed in DC and ACLF vs SC and HCs, independent of antimicrobial, beta-blocker and acid suppressant therapies. Two distinct gut microbiome clusters [ENT2/ENT3] harboured genes encoding for the phosphoenolpyruvate:sugar phosphotransferase system (PTS) system and other VFs in DC and ACLF. Substantial ARGs (oral: 1,218 and gut: 672) were detected [575 common to both sites]. The cirrhosis resistome was distinct, with three oral and four gut resistotypes identified, respectively. The degree of oral-gut microbial community overlap, frequency of VFs and ARGs all increment significantly with cirrhosis severity, with progressive dominance of pathobionts and loss of commensals. Despite similar antimicrobial exposure, patients with DC and ACLF have reduced microbial richness compared to NLS, supporting the additive pathobiological effect of cirrhosis. This research underscores the crucial role of microbiome alterations in the progression of cirrhosis in an era of escalating multidrug resistant infections, highlighting the association and potential impact of increased oral-gut microbial overlap, virulence factors, and antimicrobial resistance genes on clinical outcomes. These findings are particularly significant for patients with decompensated cirrhosis and acute-on-chronic liver failure, as they reveal the intricate relationship between microbiome alterations and cirrhosis complications. This is relevant in the context of multidrug-resistant organisms and reduced oral-gut microbial diversity that exacerbate cirrhosis severity, drive hepatic decompensation and complicate treatment. For practical applications, these insights could guide for cirrhosis patients the development of targeted microbiome-based therapeutics and personalised antimicrobial regimens to mitigate infectious complications to improve their clinical outcomes.
Bioinformatics Support for Computational Resources [Service]
NGI Stockholm (Genomics Production) [Service]
National Genomics Infrastructure [Service]
PubMed 39447963
DOI 10.1016/j.jhep.2024.09.046
Crossref 10.1016/j.jhep.2024.09.046
pii: S0168-8278(24)02635-7