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Fecal microbiota transplantation for recurrent Clostridioides difficile infection associates with functional alterations in circulating microRNAs

Monaghan, Tanya M.; Seekatz, Anna M.; Markham, Nicholas O.; On Yau, Tung; Hatziapostolou, Maria; Jilani, Tahseen; Christodoulou, Niki; Roach, Brandi; Birli, Eleni; Pomenya, Odette; Louie, Thomas; Borden Lacy, D.; Kim, Peter; Lee, Christine; Kao, Dina; Polytarchou, Christos

Fecal microbiota transplantation for recurrent Clostridioides difficile infection associates with functional alterations in circulating microRNAs Thumbnail


Authors

TANYA MONAGHAN Tanya.Monaghan@nottingham.ac.uk
Clinical Associate Professor in Luminal Gastroenterology

Anna M. Seekatz

Nicholas O. Markham

Tung On Yau

Maria Hatziapostolou

Tahseen Jilani

Niki Christodoulou

Brandi Roach

Eleni Birli

Odette Pomenya

Thomas Louie

D. Borden Lacy

Peter Kim

Christine Lee

Dina Kao

Christos Polytarchou



Abstract

Background and aims
The molecular mechanisms underlying successful fecal microbiota transplantation (FMT) for recurrent Clostridioides difficile infection (rCDI) remain poorly understood. The primary objective of this study was to characterize alterations in microRNAs (miRs) following FMT for rCDI.
Methods
Sera from two prospective multicentre randomized controlled trials were analyzed for miRNA levels using the Nanostring nCounter platform and quantitative RT-PCR. Additionally, rCDI-FMT and toxin-treated animals and ex vivo human colonoids were employed to compare intestinal tissue and circulating miRNAs. miRNA inflammatory gene targets in colonic epithelial and peripheral blood mononuclear cells were evaluated by qPCR and 3’UTR reporter assays. Colonic epithelial cells were employed for mechanistic, cytoskeleton, cell growth and apoptosis studies.
Results
miRNA profiling revealed upregulation of 64 circulating miRNAs 4- and 12-weeks following FMT compared to screening, of which the top 6 were validated in the discovery cohort by RT-qPCR. In a murine model of relapsing-CDI, RT-qPCR analyses of sera and cecal RNA extracts demonstrated suppression of these miRNAs, an effect reversed by FMT. In mouse colon and human colonoids, TcdB mediated the suppressive effects of CDI on miRNAs. CDI dysregulated Drosha, an effect reversed by FMT. Correlation analyses, qPCR and 3’UTR reporter assays revealed that miR-23a, miR-150, miR-26b, miR-28 target directly the 3’UTR of IL12B, IL18, FGF21 and TNFRSF9, respectively. miR-23a and miR-150 demonstrated cytoprotective effects against TcdB.
Conclusion
These results provide novel and provocative evidence that modulation of the gut microbiome via FMT induces alterations in circulating and intestinal tissue miRNAs. Thesefindings contribute to a greater understanding of the molecular mechanisms underlying FMT and identify new potential targets for therapeutic intervention in rCDI.

Journal Article Type Article
Acceptance Date Mar 23, 2021
Online Publication Date Apr 9, 2021
Publication Date 2021-07
Deposit Date Apr 16, 2021
Publicly Available Date Apr 10, 2022
Journal Gastroenterology
Publisher Elsevier
Peer Reviewed Peer Reviewed
Volume 161
Issue 1
Pages 255-270.e4
DOI https://doi.org/10.1053/j.gastro.2021.03.050
Keywords Fecal transplantation, C. difficile, microRNA, Drosha
Public URL https://nottingham-repository.worktribe.com/output/5461511
Publisher URL https://www.sciencedirect.com/science/article/abs/pii/S0016508521005771

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