Rationally-defined microbial consortia suppress multidrug-resistant proinflammatory Enterobacteriaceae via ecological control

Persistent colonization and outgrowth of pathogenic organisms in the intestine may occur due to long-term antibiotic usage or inflammatory conditions, which perpetuate dysregulated immunity and tissue damage(1,2). Gram-negative Enterobacteriaceae gut pathobionts are particularly recalcitrant to conv...

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Autores principales: Honda, Kenya, Furuichi, Munehiro, Kawaguchi, Takaaki, Pust, Marie-Madlen, Yasuma-Mitobe, Keiko, Plichta, Damian, Hasegawa, Naomi, Ohya, Takashi, Bhattarai, Shakti, Sasajima, Satoshi, Yoshimasa, Aoto, Tuganbaev, Timur, Yaginuma, Mizuki, Ueda, Masahiro, Okahashi, Nobuyuki, Amafuji, Kimiko, Kiridooshi, Yuuko, Sugita, Kayoko, Stražar, Martin, Skelly, Ashwin, Suda, Wataru, Hattori, Masahira, Nakamoto, Nobuhiro, Caballero, Silvia, Norman, Jason, Olle, Bernat, Tanoue, Takeshi, Arita, Makoto, Bucci, Vanni, Atarashi, Koji, Xavier, Ramnik
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Journal Experts 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10635318/
https://www.ncbi.nlm.nih.gov/pubmed/37961431
http://dx.doi.org/10.21203/rs.3.rs-3462622/v1
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author Honda, Kenya
Furuichi, Munehiro
Kawaguchi, Takaaki
Pust, Marie-Madlen
Yasuma-Mitobe, Keiko
Plichta, Damian
Hasegawa, Naomi
Ohya, Takashi
Bhattarai, Shakti
Sasajima, Satoshi
Yoshimasa, Aoto
Tuganbaev, Timur
Yaginuma, Mizuki
Ueda, Masahiro
Okahashi, Nobuyuki
Amafuji, Kimiko
Kiridooshi, Yuuko
Sugita, Kayoko
Stražar, Martin
Skelly, Ashwin
Suda, Wataru
Hattori, Masahira
Nakamoto, Nobuhiro
Caballero, Silvia
Norman, Jason
Olle, Bernat
Tanoue, Takeshi
Arita, Makoto
Bucci, Vanni
Atarashi, Koji
Xavier, Ramnik
author_facet Honda, Kenya
Furuichi, Munehiro
Kawaguchi, Takaaki
Pust, Marie-Madlen
Yasuma-Mitobe, Keiko
Plichta, Damian
Hasegawa, Naomi
Ohya, Takashi
Bhattarai, Shakti
Sasajima, Satoshi
Yoshimasa, Aoto
Tuganbaev, Timur
Yaginuma, Mizuki
Ueda, Masahiro
Okahashi, Nobuyuki
Amafuji, Kimiko
Kiridooshi, Yuuko
Sugita, Kayoko
Stražar, Martin
Skelly, Ashwin
Suda, Wataru
Hattori, Masahira
Nakamoto, Nobuhiro
Caballero, Silvia
Norman, Jason
Olle, Bernat
Tanoue, Takeshi
Arita, Makoto
Bucci, Vanni
Atarashi, Koji
Xavier, Ramnik
author_sort Honda, Kenya
collection PubMed
description Persistent colonization and outgrowth of pathogenic organisms in the intestine may occur due to long-term antibiotic usage or inflammatory conditions, which perpetuate dysregulated immunity and tissue damage(1,2). Gram-negative Enterobacteriaceae gut pathobionts are particularly recalcitrant to conventional antibiotic treatment(3,4), though an emerging body of evidence suggests that manipulation of the commensal microbiota may be a practical alternative therapeutic strategy(5–7). In this study, we rationally isolated and down-selected commensal bacterial consortia from healthy human stool samples capable of strongly and specifically suppressing intestinal Enterobacteriaceae. One of the elaborated consortia, consisting of 18 commensal strains, effectively controlled ecological niches by regulating gluconate availability, thereby reestablishing colonization resistance and alleviating antibiotic-resistant Klebsiella-driven intestinal inflammation in mice. Harnessing these microbial activities in the form of live bacterial therapeutics may represent a promising solution to combat the growing threat of proinflammatory, antimicrobial-resistant bacterial infection.
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spelling pubmed-106353182023-11-13 Rationally-defined microbial consortia suppress multidrug-resistant proinflammatory Enterobacteriaceae via ecological control Honda, Kenya Furuichi, Munehiro Kawaguchi, Takaaki Pust, Marie-Madlen Yasuma-Mitobe, Keiko Plichta, Damian Hasegawa, Naomi Ohya, Takashi Bhattarai, Shakti Sasajima, Satoshi Yoshimasa, Aoto Tuganbaev, Timur Yaginuma, Mizuki Ueda, Masahiro Okahashi, Nobuyuki Amafuji, Kimiko Kiridooshi, Yuuko Sugita, Kayoko Stražar, Martin Skelly, Ashwin Suda, Wataru Hattori, Masahira Nakamoto, Nobuhiro Caballero, Silvia Norman, Jason Olle, Bernat Tanoue, Takeshi Arita, Makoto Bucci, Vanni Atarashi, Koji Xavier, Ramnik Res Sq Article Persistent colonization and outgrowth of pathogenic organisms in the intestine may occur due to long-term antibiotic usage or inflammatory conditions, which perpetuate dysregulated immunity and tissue damage(1,2). Gram-negative Enterobacteriaceae gut pathobionts are particularly recalcitrant to conventional antibiotic treatment(3,4), though an emerging body of evidence suggests that manipulation of the commensal microbiota may be a practical alternative therapeutic strategy(5–7). In this study, we rationally isolated and down-selected commensal bacterial consortia from healthy human stool samples capable of strongly and specifically suppressing intestinal Enterobacteriaceae. One of the elaborated consortia, consisting of 18 commensal strains, effectively controlled ecological niches by regulating gluconate availability, thereby reestablishing colonization resistance and alleviating antibiotic-resistant Klebsiella-driven intestinal inflammation in mice. Harnessing these microbial activities in the form of live bacterial therapeutics may represent a promising solution to combat the growing threat of proinflammatory, antimicrobial-resistant bacterial infection. American Journal Experts 2023-10-23 /pmc/articles/PMC10635318/ /pubmed/37961431 http://dx.doi.org/10.21203/rs.3.rs-3462622/v1 Text en https://creativecommons.org/licenses/by/4.0/This work is licensed under a Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0/) , which allows reusers to distribute, remix, adapt, and build upon the material in any medium or format, so long as attribution is given to the creator. The license allows for commercial use.
spellingShingle Article
Honda, Kenya
Furuichi, Munehiro
Kawaguchi, Takaaki
Pust, Marie-Madlen
Yasuma-Mitobe, Keiko
Plichta, Damian
Hasegawa, Naomi
Ohya, Takashi
Bhattarai, Shakti
Sasajima, Satoshi
Yoshimasa, Aoto
Tuganbaev, Timur
Yaginuma, Mizuki
Ueda, Masahiro
Okahashi, Nobuyuki
Amafuji, Kimiko
Kiridooshi, Yuuko
Sugita, Kayoko
Stražar, Martin
Skelly, Ashwin
Suda, Wataru
Hattori, Masahira
Nakamoto, Nobuhiro
Caballero, Silvia
Norman, Jason
Olle, Bernat
Tanoue, Takeshi
Arita, Makoto
Bucci, Vanni
Atarashi, Koji
Xavier, Ramnik
Rationally-defined microbial consortia suppress multidrug-resistant proinflammatory Enterobacteriaceae via ecological control
title Rationally-defined microbial consortia suppress multidrug-resistant proinflammatory Enterobacteriaceae via ecological control
title_full Rationally-defined microbial consortia suppress multidrug-resistant proinflammatory Enterobacteriaceae via ecological control
title_fullStr Rationally-defined microbial consortia suppress multidrug-resistant proinflammatory Enterobacteriaceae via ecological control
title_full_unstemmed Rationally-defined microbial consortia suppress multidrug-resistant proinflammatory Enterobacteriaceae via ecological control
title_short Rationally-defined microbial consortia suppress multidrug-resistant proinflammatory Enterobacteriaceae via ecological control
title_sort rationally-defined microbial consortia suppress multidrug-resistant proinflammatory enterobacteriaceae via ecological control
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10635318/
https://www.ncbi.nlm.nih.gov/pubmed/37961431
http://dx.doi.org/10.21203/rs.3.rs-3462622/v1
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