Publikation: Sulfoquinovose is exclusively metabolized by the gut microbiota and degraded differently in mice and humans
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Background:
Sulfoquinovose (SQ) is a green-diet-derived sulfonated glucose and a selective substrate for a limited number of human gut bacteria. Complete anaerobic SQ degradation via interspecies metabolite transfer to sulfonate-respiring bacteria produces hydrogen sulfide, which has dose- and context-dependent health effects. Here, we studied potential SQ degradation by the mammalian host and the impact of SQ supplementation on human and murine gut microbiota diversity and metabolism.
Results: 13CO2 breath tests with germ-free C57BL/6 mice gavaged with 13C-SQ were negative. Also, SQ was not degraded by human intestinal cells in vitro, indicating that SQ is not directly metabolized by mice and humans. Addition of increasing SQ concentrations to human fecal microcosms revealed dose-dependent responses of the microbiota and corroborated the relevance of Agathobacter rectalis and Bilophila wadsworthia in cooperative degradation of SQ to hydrogen sulfide via interspecies transfer of 2,3-dihydroxy-1-propanesulfonate (DHPS). Similar to the human gut microbiome, the genetic capacity for SQ or DHPS degradation is sparsely distributed among bacterial species in the gut of conventional laboratory mice. Escherichia coli and Enterocloster clostridioformis were identified as primary SQ degraders in the mouse gut. SQ and DHPS supplementation experiments with conventional laboratory mice and their intestinal contents showed that SQ was incompletely catabolized to DHPS. Although some E. clostridioformis genomes encode an extended sulfoglycolytic pathway for both SQ and DHPS fermentation, SQ was only degraded to DHPS by a mouse-derived E. clostridioformis strain.
Conclusions: Our findings suggest that SQ is solely a nutrient for the gut microbiota and not for mice and humans, emphasizing its potential as a prebiotic. SQ degradation by the microbiota of conventional laboratory mice differs from the human gut microbiota by absence of DHPS degradation activity. Hence, the microbiota of conventional laboratory mice does not fully represent the SQ metabolism in humans, indicating the need for alternative model systems to assess the impact of SQ on human health. This study advances our understanding of how individual dietary compounds shape the microbial community structure and metabolism in the gut and thereby potentially influence host health.
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KRASENBRINK, Julia, Buck T. HANSON, Anna S. WEISS, Sabrina BORUSAK, Tomohisa Sebastian TANABE, Michaela LANG, Georg AICHINGER, Bela HAUSMANN, David BERRY, Andreas RICHTER, Doris MARKO, Marc MUSSMANN, David SCHLEHECK, Bärbel STECHER, Alexander LOY, 2025. Sulfoquinovose is exclusively metabolized by the gut microbiota and degraded differently in mice and humans. In: Microbiome. Springer. 2025, 13(1), 184. eISSN 2049-2618. Verfügbar unter: doi: 10.1186/s40168-025-02175-xBibTex
@article{Krasenbrink2025-08-07Sulfo-76062,
title={Sulfoquinovose is exclusively metabolized by the gut microbiota and degraded differently in mice and humans},
year={2025},
doi={10.1186/s40168-025-02175-x},
number={1},
volume={13},
journal={Microbiome},
author={Krasenbrink, Julia and Hanson, Buck T. and Weiss, Anna S. and Borusak, Sabrina and Tanabe, Tomohisa Sebastian and Lang, Michaela and Aichinger, Georg and Hausmann, Bela and Berry, David and Richter, Andreas and Marko, Doris and Mussmann, Marc and Schleheck, David and Stecher, Bärbel and Loy, Alexander},
note={Article Number: 184}
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<dcterms:abstract>Background:
Sulfoquinovose (SQ) is a green-diet-derived sulfonated glucose and a selective substrate for a limited number of human gut bacteria. Complete anaerobic SQ degradation via interspecies metabolite transfer to sulfonate-respiring bacteria produces hydrogen sulfide, which has dose- and context-dependent health effects. Here, we studied potential SQ degradation by the mammalian host and the impact of SQ supplementation on human and murine gut microbiota diversity and metabolism.
Results:
<sup>13</sup>CO<sub>2</sub> breath tests with germ-free C57BL/6 mice gavaged with <sup>13</sup>C-SQ were negative. Also, SQ was not degraded by human intestinal cells in vitro, indicating that SQ is not directly metabolized by mice and humans. Addition of increasing SQ concentrations to human fecal microcosms revealed dose-dependent responses of the microbiota and corroborated the relevance of Agathobacter rectalis and Bilophila wadsworthia in cooperative degradation of SQ to hydrogen sulfide via interspecies transfer of 2,3-dihydroxy-1-propanesulfonate (DHPS). Similar to the human gut microbiome, the genetic capacity for SQ or DHPS degradation is sparsely distributed among bacterial species in the gut of conventional laboratory mice. Escherichia coli and Enterocloster clostridioformis were identified as primary SQ degraders in the mouse gut. SQ and DHPS supplementation experiments with conventional laboratory mice and their intestinal contents showed that SQ was incompletely catabolized to DHPS. Although some E. clostridioformis genomes encode an extended sulfoglycolytic pathway for both SQ and DHPS fermentation, SQ was only degraded to DHPS by a mouse-derived E. clostridioformis strain.
Conclusions:
Our findings suggest that SQ is solely a nutrient for the gut microbiota and not for mice and humans, emphasizing its potential as a prebiotic. SQ degradation by the microbiota of conventional laboratory mice differs from the human gut microbiota by absence of DHPS degradation activity. Hence, the microbiota of conventional laboratory mice does not fully represent the SQ metabolism in humans, indicating the need for alternative model systems to assess the impact of SQ on human health. This study advances our understanding of how individual dietary compounds shape the microbial community structure and metabolism in the gut and thereby potentially influence host health.</dcterms:abstract>
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