Bacillus velezensis DSM 33864 reduces Clostridioides difficile colonization without disturbing commensal gut microbiota composition

Up to 25% of the US population harbor Clostridioides difficile in the gut. Following antibiotic disruption of the gut microbiota, C. difficile can act as an opportunistic pathogen and induce potentially lethal infections. Consequently, reducing the colonization of C. difficile in at-risk populations...

Descripción completa

Detalles Bibliográficos
Autores principales: Larsen, Ida Søgaard, Chenaux, Megan, Collins, Fergus W. J., Mandic, Ana, Hansen, Lea B. S., Lauridsen, Caroline A. S., Haller, Rune F., Elvig-Jørgensen, Signe, Horwell, Ed, Christiansen, Jeanett, Silva, Ana, Vehreschild, Maria J. G. T., Cutting, Simon M., Roggenbuck-Wedemeyer, Michael, Kristensen, Nanna Ny
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10495459/
https://www.ncbi.nlm.nih.gov/pubmed/37696924
http://dx.doi.org/10.1038/s41598-023-42128-8
_version_ 1785104900724621312
author Larsen, Ida Søgaard
Chenaux, Megan
Collins, Fergus W. J.
Mandic, Ana
Hansen, Lea B. S.
Lauridsen, Caroline A. S.
Haller, Rune F.
Elvig-Jørgensen, Signe
Horwell, Ed
Christiansen, Jeanett
Silva, Ana
Vehreschild, Maria J. G. T.
Cutting, Simon M.
Roggenbuck-Wedemeyer, Michael
Kristensen, Nanna Ny
author_facet Larsen, Ida Søgaard
Chenaux, Megan
Collins, Fergus W. J.
Mandic, Ana
Hansen, Lea B. S.
Lauridsen, Caroline A. S.
Haller, Rune F.
Elvig-Jørgensen, Signe
Horwell, Ed
Christiansen, Jeanett
Silva, Ana
Vehreschild, Maria J. G. T.
Cutting, Simon M.
Roggenbuck-Wedemeyer, Michael
Kristensen, Nanna Ny
author_sort Larsen, Ida Søgaard
collection PubMed
description Up to 25% of the US population harbor Clostridioides difficile in the gut. Following antibiotic disruption of the gut microbiota, C. difficile can act as an opportunistic pathogen and induce potentially lethal infections. Consequently, reducing the colonization of C. difficile in at-risk populations is warranted, prompting us to identify and characterize a probiotic candidate specifically targeting C. difficile colonization. We identified Bacillus velezensis DSM 33864 as a promising strain to reduce C. difficile levels in vitro. We further investigated the effects of B. velezensis DSM 33864 in an assay including human fecal medium and in healthy or clindamycin-treated mouse models of C. difficile colonization. The addition of B. velezensis DSM 33864 to human fecal samples was shown to reduce the colonization of C. difficile in vitro. This was supported in vivo where orally administered B. velezensis DSM 33864 spores reduced C. difficile levels in clindamycin-treated mice. The commensal microbiota composition or post-antibiotic reconstitution was not impacted by B. velezensis DSM 33864 in human fecal samples, short-, or long-term administration in mice. In conclusion, oral administration of B. velezensis DSM 33864 specifically reduced C. difficile colonization in vitro and in vivo without adversely impacting the commensal gut microbiota composition.
format Online
Article
Text
id pubmed-10495459
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher Nature Publishing Group UK
record_format MEDLINE/PubMed
spelling pubmed-104954592023-09-13 Bacillus velezensis DSM 33864 reduces Clostridioides difficile colonization without disturbing commensal gut microbiota composition Larsen, Ida Søgaard Chenaux, Megan Collins, Fergus W. J. Mandic, Ana Hansen, Lea B. S. Lauridsen, Caroline A. S. Haller, Rune F. Elvig-Jørgensen, Signe Horwell, Ed Christiansen, Jeanett Silva, Ana Vehreschild, Maria J. G. T. Cutting, Simon M. Roggenbuck-Wedemeyer, Michael Kristensen, Nanna Ny Sci Rep Article Up to 25% of the US population harbor Clostridioides difficile in the gut. Following antibiotic disruption of the gut microbiota, C. difficile can act as an opportunistic pathogen and induce potentially lethal infections. Consequently, reducing the colonization of C. difficile in at-risk populations is warranted, prompting us to identify and characterize a probiotic candidate specifically targeting C. difficile colonization. We identified Bacillus velezensis DSM 33864 as a promising strain to reduce C. difficile levels in vitro. We further investigated the effects of B. velezensis DSM 33864 in an assay including human fecal medium and in healthy or clindamycin-treated mouse models of C. difficile colonization. The addition of B. velezensis DSM 33864 to human fecal samples was shown to reduce the colonization of C. difficile in vitro. This was supported in vivo where orally administered B. velezensis DSM 33864 spores reduced C. difficile levels in clindamycin-treated mice. The commensal microbiota composition or post-antibiotic reconstitution was not impacted by B. velezensis DSM 33864 in human fecal samples, short-, or long-term administration in mice. In conclusion, oral administration of B. velezensis DSM 33864 specifically reduced C. difficile colonization in vitro and in vivo without adversely impacting the commensal gut microbiota composition. Nature Publishing Group UK 2023-09-11 /pmc/articles/PMC10495459/ /pubmed/37696924 http://dx.doi.org/10.1038/s41598-023-42128-8 Text en © The Author(s) 2023 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Larsen, Ida Søgaard
Chenaux, Megan
Collins, Fergus W. J.
Mandic, Ana
Hansen, Lea B. S.
Lauridsen, Caroline A. S.
Haller, Rune F.
Elvig-Jørgensen, Signe
Horwell, Ed
Christiansen, Jeanett
Silva, Ana
Vehreschild, Maria J. G. T.
Cutting, Simon M.
Roggenbuck-Wedemeyer, Michael
Kristensen, Nanna Ny
Bacillus velezensis DSM 33864 reduces Clostridioides difficile colonization without disturbing commensal gut microbiota composition
title Bacillus velezensis DSM 33864 reduces Clostridioides difficile colonization without disturbing commensal gut microbiota composition
title_full Bacillus velezensis DSM 33864 reduces Clostridioides difficile colonization without disturbing commensal gut microbiota composition
title_fullStr Bacillus velezensis DSM 33864 reduces Clostridioides difficile colonization without disturbing commensal gut microbiota composition
title_full_unstemmed Bacillus velezensis DSM 33864 reduces Clostridioides difficile colonization without disturbing commensal gut microbiota composition
title_short Bacillus velezensis DSM 33864 reduces Clostridioides difficile colonization without disturbing commensal gut microbiota composition
title_sort bacillus velezensis dsm 33864 reduces clostridioides difficile colonization without disturbing commensal gut microbiota composition
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10495459/
https://www.ncbi.nlm.nih.gov/pubmed/37696924
http://dx.doi.org/10.1038/s41598-023-42128-8
work_keys_str_mv AT larsenidasøgaard bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition
AT chenauxmegan bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition
AT collinsferguswj bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition
AT mandicana bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition
AT hansenleabs bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition
AT lauridsencarolineas bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition
AT hallerrunef bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition
AT elvigjørgensensigne bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition
AT horwelled bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition
AT christiansenjeanett bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition
AT silvaana bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition
AT vehreschildmariajgt bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition
AT cuttingsimonm bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition
AT roggenbuckwedemeyermichael bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition
AT kristensennannany bacillusvelezensisdsm33864reducesclostridioidesdifficilecolonizationwithoutdisturbingcommensalgutmicrobiotacomposition

Ejemplares similares