The microbial tryptophan metabolite indole acts on the gastrointestinal tract to improve glucose homeostasis by enhancing GLP-1 secretion and L-cell differentiation

  1. Phyllis Phuah
  2. Mariana Norton
  3. Sijing Cheng
  4. Anna G. Roberts
  5. Leah Meyer
  6. Pei-En Chung
  7. Cecilia Dunsterville
  8. Rafal Karwowski
  9. Brian Y.H. Lam
  10. Emile Otsubo
  11. Sofia Aleksashina
  12. Fiona M. Gribble
  13. Frank Reimann
  14. Aylin C. Hanyaloglu
  15. Giles S.H. Yeo
  16. Gavin A. Bewick
  17. Ben Jones
  18. Bryn Owen
  19. Kevin G. Murphy
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Abstract

Aims/hypothesis

Growing evidence implicates gut microbiota-derived metabolites in metabolic homeostasis. Indole, a microbial tryptophan metabolite, has been reported to enhance Glucagon-like peptide-1 (GLP-1) secretion in vitro, and its derivatives have been inversely associated with risk of type 2 diabetes (T2D). We hypothesised that indole acts via the gastrointestinal tract to modulate glucose homeostasis, and aimed to test this hypothesis using in vitro and in vivo models.

Methods

The acute effects of indole on GLP-1 secretion in vitro , and on glucose tolerance and hormone secretion in mice, were determined. Subsequently, the effects of indole on intestinal epithelial cell fate and L-cell differentiation in murine ileal organoids and in vivo were studied. Finally, the utility of chronic indole administration in a murine model of T2D was explored.

Results

Indole stimulated in vitro GLP-1 secretion in a concentration-dependent manner, and improved acute glucose control in vivo. Additionally, we demonstrate that indole drives enteroendocrine L-cell differentiation in murine ileal organoids, resulting in increased L-cell density and longer-term glucoregulatory benefits in vivo. Finally, sub-chronic indole administration improved glucose tolerance and insulin sensitivity in diabetic mice.

Conclusions/interpretation

Our findings identify indole as an anti-diabetic molecule that acts on the gut, and raise the possibility of incorporating indole into nutraceutical supplements to aid in the treatment or prevention of T2D. This highlights the importance of gut microbiota-derived metabolites in metabolic health and opens new avenues for developing novel strategies to combat T2D.

Research in Context

What is already known about this subject?

  • Gut microbiota-derived metabolites play a role in metabolic homeostasis.

  • Indole, a microbial tryptophan metabolite, enhances GLP-1 secretion in vitro .

  • Indole derivatives are inversely associated with type 2 diabetes (T2D) risk.

What is the key question?

  • Does indole act on the gut to modulate glucose homeostasis?

What are the new findings?

  • Indole stimulates GLP-1 secretion and improves acute glucose control in vivo .

  • Indole drives enteroendocrine L-cell differentiation in murine ileal organoids, increasing L-cell density and long-term glucoregulatory benefits.

  • Sub-chronic indole administration improves glucose tolerance and insulin sensitivity in mice with type 2 diabetes, showing the potential of gut microbiota-derived metabolites as therapeutic targets.

How might this impact clinical practice in the foreseeable future?

  • Indole could be incorporated into nutraceutical supplements for T2D prevention or treatment.

Article activity feed

  1. Version published to 10.1101/2025.06.24.661421v1 on bioRxiv