A specifically designed multi-biotic reduces uremic toxin generation and improves kidney function

A specifically designed multi-biotic reduces uremic toxin generation and improves kidney function

Chronic kidney disease (CKD) is characterized by accumulation of uremic toxins (UTs), such as p-cresyl sulfate and indoxyl sulfate, generated through the transformation of tyrosine and tryptophan by the gut microbiota. Using an ex vivo Simulator of the Human Intestinal Microbial Ecosystem (SHIME) co...

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Main Authors: Alice Beau, Jane Natividad, Berengère Benoit, Philippe Delerive, Stéphane Duboux, Yuan Feng, Marie Jammes, Cecile Barnel, Giuseppina Sequino, Claudie Pinteur, Griet Glorieux, Denis Fouque, Hubert Vidal, Laetitia Koppe
Format: Article
Language:English
Published: Taylor & Francis Group 2025-12-01
Series:Gut Microbes
Subjects:
Multi-biotic
chronic kidney disease
uremic toxins
gut microbiota
Online Access:https://www.tandfonline.com/doi/10.1080/19490976.2025.2531202
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Summary:Chronic kidney disease (CKD) is characterized by accumulation of uremic toxins (UTs), such as p-cresyl sulfate and indoxyl sulfate, generated through the transformation of tyrosine and tryptophan by the gut microbiota. Using an ex vivo Simulator of the Human Intestinal Microbial Ecosystem (SHIME) colonized with fecal samples from eight CKD patients or nine healthy volunteers, a higher bacterial generation of p-cresol and indoles post-amino acid enrichment, as well lower basal butyrate levels, in the feces of CKD patients were found. Through in silico data mining, we selected a probiotic strain lacking the capacity to produce UT, i.e. without genes for tryptophanase, tyrosinase and urease. In vitro, we confirmed the potential of cellobiose as a prebiotic supporting the growth of this strain. We further designed a novel specific multi-biotic for CKD (SynCKD) [containing a probiotic Lactobacillus johnsonii NCC533, a prebiotic (1% cellobiose), and a postbiotic (1% short and medium chain triglycerides C4-C8, a source of butyrate)]. SynCKD effectively curtailed UT precursor generation ex vivo. The in vivo efficacy of SynCKD (and the synergic effect) was established in two uremic rodent models, demonstrating lower plasma levels of UTs and enhancing kidney function after 6–8 weeks of treatment. These effects were linked to better gut microbial ecology. Metagenomic analysis revealed reduced microbial genes for tryptophan/tyrosine degradation. This study lays the foundation for SynCKD as a potential therapy to mitigate CKD progression.
ISSN:1949-0976
1949-0984

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