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Human-derived microRNA 21 regulates indole and L-tryptophan biosynthesis transcripts in the gut commensal Bacteroides thetaiotaomicron.

Human-derived microRNA 21 regulates indole and L-tryptophan biosynthesis transcripts in the gut commensal Bacteroides thetaiotaomicron.
Human-derived microRNA 21 regulates indole and L-tryptophan biosynthesis transcripts in the gut commensal Bacteroides thetaiotaomicron.

In the gut, microRNAs (miRNAs) produced by intestinal epithelial cells are secreted into the lumen and can shape the composition and function of the gut microbiome. Crosstalk between gut microbes and the host plays a key role in irritable bowel syndrome (IBS) and inflammatory bowel diseases, yet little is known about how the miRNA–gut microbiome axis contributes to the pathogenesis of these conditions. Here, we investigate the ability of miR-21, a miRNA that we found decreased in fecal samples from IBS patients, to associate with and regulate gut microbiome function. When incubated with the human fecal microbiota, miR-21 revealed a rapid internalization or binding to microbial cells, which varied in extent across different donor samples. Fluorescence-activated cell sorting and sequencing of microbial cells incubated with fluorescently labeled miR-21 identified organisms belonging to the genera Bacteroides, Limosilactobacillus, Ruminococcus, or Coprococcus, which predominantly interacted with miR-21. Surprisingly, these and other genera also interacted with a miRNA scramble control, suggesting that physical interaction and/or uptake of these miRNAs by gut microbiota is not sequence-dependent. Nevertheless, transcriptomic analysis of the gut commensal Bacteroides thetaiotaomicron revealed a miRNA sequence-specific effect on bacterial transcript levels. Supplementation of miR-21, but not of small RNA controls, resulted in significantly altered levels of many cellular transcripts and increased transcription of a biosynthetic operon for indole and L-tryptophan, metabolites known to regulate host inflammation and colonic motility. Our study identifies a novel putative miR-21-dependent pathway of regulation of intestinal function through the gut microbiome with implications for gastrointestinal conditions.

Bacteroides thetaiotaomicron/genetics, Feces/microbiology, Gastrointestinal Microbiome, Humans, Indoles/metabolism, Irritable Bowel Syndrome/microbiology, MicroRNAs/genetics, Tryptophan/metabolism
2150-7511
Flanagan, Kayla
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Gassner, Kirsten
de18225f-059c-46ea-8d83-a80c5b5e6759
Lang, Michaela
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Ozelyte, Jurgita
f4880c7e-1970-4086-aebe-c28bae7497f7
Hausmann, Bela
eafe0877-bbac-463e-b589-3b8e53736ccf
Crepaz, Daniel
cf057ec6-873e-4862-b4a9-e9f0925ffae4
Pjevac, Petra
deeda280-9eb1-42a9-84c0-7cf45bb851c3
Gasche, Christoph
3b7c730c-7de1-4e89-8a6e-1e38a9d663a5
Berry, David
ea1e9cf8-139c-4eb1-be2d-880efba2ec37
Vesely, Cornelia
3ba3d31b-3b6b-42b6-8d92-e82efdd90bdc
Pereira, Fatima C.
a9396948-26f9-4f13-8f83-a22fec1dd0e0
Flanagan, Kayla
3167dd71-3197-432e-9aa1-e005af749fcb
Gassner, Kirsten
de18225f-059c-46ea-8d83-a80c5b5e6759
Lang, Michaela
585e123f-6c78-4d45-ab47-f380b682fedc
Ozelyte, Jurgita
f4880c7e-1970-4086-aebe-c28bae7497f7
Hausmann, Bela
eafe0877-bbac-463e-b589-3b8e53736ccf
Crepaz, Daniel
cf057ec6-873e-4862-b4a9-e9f0925ffae4
Pjevac, Petra
deeda280-9eb1-42a9-84c0-7cf45bb851c3
Gasche, Christoph
3b7c730c-7de1-4e89-8a6e-1e38a9d663a5
Berry, David
ea1e9cf8-139c-4eb1-be2d-880efba2ec37
Vesely, Cornelia
3ba3d31b-3b6b-42b6-8d92-e82efdd90bdc
Pereira, Fatima C.
a9396948-26f9-4f13-8f83-a22fec1dd0e0

Flanagan, Kayla, Gassner, Kirsten, Lang, Michaela, Ozelyte, Jurgita, Hausmann, Bela, Crepaz, Daniel, Pjevac, Petra, Gasche, Christoph, Berry, David, Vesely, Cornelia and Pereira, Fatima C. (2025) Human-derived microRNA 21 regulates indole and L-tryptophan biosynthesis transcripts in the gut commensal Bacteroides thetaiotaomicron. mBio, 16 (3), [e03928-24]. (doi:10.1128/mbio.03928-24).

Record type: Article

Abstract

In the gut, microRNAs (miRNAs) produced by intestinal epithelial cells are secreted into the lumen and can shape the composition and function of the gut microbiome. Crosstalk between gut microbes and the host plays a key role in irritable bowel syndrome (IBS) and inflammatory bowel diseases, yet little is known about how the miRNA–gut microbiome axis contributes to the pathogenesis of these conditions. Here, we investigate the ability of miR-21, a miRNA that we found decreased in fecal samples from IBS patients, to associate with and regulate gut microbiome function. When incubated with the human fecal microbiota, miR-21 revealed a rapid internalization or binding to microbial cells, which varied in extent across different donor samples. Fluorescence-activated cell sorting and sequencing of microbial cells incubated with fluorescently labeled miR-21 identified organisms belonging to the genera Bacteroides, Limosilactobacillus, Ruminococcus, or Coprococcus, which predominantly interacted with miR-21. Surprisingly, these and other genera also interacted with a miRNA scramble control, suggesting that physical interaction and/or uptake of these miRNAs by gut microbiota is not sequence-dependent. Nevertheless, transcriptomic analysis of the gut commensal Bacteroides thetaiotaomicron revealed a miRNA sequence-specific effect on bacterial transcript levels. Supplementation of miR-21, but not of small RNA controls, resulted in significantly altered levels of many cellular transcripts and increased transcription of a biosynthetic operon for indole and L-tryptophan, metabolites known to regulate host inflammation and colonic motility. Our study identifies a novel putative miR-21-dependent pathway of regulation of intestinal function through the gut microbiome with implications for gastrointestinal conditions.

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flanagan-et-al-human-derived-microrna-21-regulates-indole-and-l-tryptophan-biosynthesis-transcripts-in-the-gut - Version of Record
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Accepted/In Press date: 8 January 2025
e-pub ahead of print date: 29 January 2025
Published date: 12 March 2025
Keywords: Bacteroides thetaiotaomicron/genetics, Feces/microbiology, Gastrointestinal Microbiome, Humans, Indoles/metabolism, Irritable Bowel Syndrome/microbiology, MicroRNAs/genetics, Tryptophan/metabolism
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Identifiers

Local EPrints ID: 500675
URI: http://eprints.soton.ac.uk/id/eprint/500675
DOI: doi:10.1128/mbio.03928-24
ISSN: 2150-7511
PURE UUID: 53256b6c-d51a-4bf3-a4e8-81d875a2e3fa
ORCID for Fatima C. Pereira: ORCID iD orcid.org/0000-0002-1288-6481

Catalogue record

Date deposited: 09 May 2025 16:35
Last modified: 22 Aug 2025 02:36

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Contributors

Author: Kayla Flanagan
Author: Kirsten Gassner
Author: Michaela Lang
Author: Jurgita Ozelyte
Author: Bela Hausmann
Author: Daniel Crepaz
Author: Petra Pjevac
Author: Christoph Gasche
Author: David Berry
Author: Cornelia Vesely
Author: Fatima C. Pereira ORCID iD

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