Development of a novel humanized gut-brain axis model as a tool toward personalized nutrition
2026
Myrto S. Chatzopoulou | Ravi Vumma | Samira Prado | Mathias W. Scharf | Victor Castro-Alves | Ashley N. Hutchinson | Ignacio Rangel | Tatiana M. Marques | Rebecca Wall | Robert J. Brummer | Julia Rode
Abstract Intestinal luminal microbial metabolites affect tryptophan and serotonin metabolism, and cross or modify the blood-brain barrier (BBB). Understanding those mechanisms further necessitates integrated gut-brain axis model systems. Using an ex vivo-in vitro approach, H2O2-stressed or non-stressed human dermal fibroblasts – representing the BBB – are cultured with serosal fluids of healthy or irritable bowel syndrome human colonic biopsies collected from Ussing chamber experiments, after participant’s colon was exposed to butyrate in vivo, fecal fiber fermentation or control supernatant ex vivo. Culturing fibroblasts with serosal fluids does not compromise viability or have cytotoxic effects. Serosal fluids alone do not alter expression of tryptophan-related large amino acid membrane transporter genes and proteins, nor their activity (i.e., tryptophan uptake). However, adding serosal fluids to fibroblasts prior to oxidative stress indicate a protective role. This new model allows investigation of direct effects of serosal content on BBB-representing fibroblasts and is highly promising for more personalized applications.
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