FISH–Flow Cytometry Reveals Microbiome-Wide Changes in Post-Translational Modification and Altered Microbial Abundance Among Children with Inflammatory Bowel Disease
2024
Mevlut Ulas | Seamus Hussey | Annemarie Broderick | Emer Fitzpatrick | Cara Dunne | Sarah Cooper | Anna Dominik | Billy Bourke
Metaproteomic analysis of microbiome post-translation modifications (PTMm) is challenging, and little is known about the effects of inflammation on the bacterial PTM landscape in IBD. Here, we adapted and optimised fluorescence in situ hybridisation&ndash:flow cytometry (FISH-FC) to study microbiome-wide tyrosine phosphorylation (p-Tyr) in children with and without inflammatory bowel disease (IBD). Microbial p-Tyr signal was significantly higher in children with IBD, compared to those without. Faecalibacterium prausnitzii, Bacteroidota, Gammaproteobacteria and Bifidobacteria tended to be more abundant in IBD than in non-IBD control children but there were only minor differences in p-Tyr among these bacterial communities in those with and without IBD. p-Tyr was significantly lower in non-IBD children older than 9 yrs compared with those less than 9 yrs, and the effect was seen in all four bacterial subgroups studied. The opposite trend was seen in patients with IBD. p-Tyr overall is higher in children with IBD but the effects of inflammation on p-Tyr vary according to the bacterial community. The overall microbiome p-Tyr signal changes with age in healthy children. FISH-FC can be used to study the microbiome-wide PTM landscape.
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