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A Leaky Human Colon Model Reveals Uncoupled Apical/Basal Cytotoxicity in Early Clostridioides difficile Toxin Exposure
A Leaky Human Colon Model Reveals Uncoupled Apical/Basal Cytotoxicity in Early Clostridioides difficile Toxin Exposure
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Length:
20 minutes
Released:
Oct 14, 2022
Format:
Podcast episode
Description
Link to bioRxiv paper:
http://biorxiv.org/cgi/content/short/2022.10.13.511617v1?rss=1
Authors: Ok, M. T., Liu, J., Bliton, R. J., Hinesley, C. M., San Pedro, E. E. T., Breau, K. A., Gomez-Martinez, I., Burclaff, J., Magness, S. T.
Abstract:
Background & Aims: Clostridioides difficile (C. difficile) toxins A (TcdA) and B (TcdB) cause antibiotic-associated colitis and increase morbidity and mortality. Accurate in vitro models are necessary to detect early toxicity kinetics, investigate disease etiology, and develop pre-clinical models for new therapies. Properties of cancer cell lines and 3D organoids inherently limit these efforts. Here, we develop adult stem cell-derived monolayers of differentiated human colonic epithelium (hCE) with barrier function, investigate the impact of toxin application to apical/basal aspects of monolayers, and evaluate whether a leaky epithelial barrier enhances toxicity. Methods: Single-cell RNA-sequencing (scRNAseq) mapped C. difficile-relevant genes to cell lineages across the human gut. Transcriptomics informed timing of stem cell differentiation to achieve in vitro colonocyte maturation like that observed in vivo. Transepithelial electrical resistance (TEER) and fluorescent dextran permeability assays measured cytotoxicity as barrier loss post-toxin exposure. Leaky epithelial barriers were induced with diclofenac (DCF). Results: scRNAseq demonstrated broad and variable toxin receptor expression across the human gut lineages. Absorptive colonocytes displayed generally enhanced toxin receptor, Rho GTPase, and cell junction expression. 21-day differentiated Caco-2 cells remained immature whereas hCE monolayers were similar to mature colonocytes. hCE monolayers exhibited high barrier function after 1-day differentiation. Basal TcdA/B application to monolayers caused more toxicity and apoptosis than apical exposure. DCF induced leaky hCE monolayers and enhanced toxicity of TcdB exposure. Conclusions: hCE monolayers represent a physiologically relevant and sensitive culture system to evaluate impact of microbial toxins on gut epithelium, demonstrate uncoupled onset and magnitude of apical/basal toxicities with delayed apical toxicity, and highlight that leaky paracellular junctions enhance toxicity of apical TcdB exposure.
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http://biorxiv.org/cgi/content/short/2022.10.13.511617v1?rss=1
Authors: Ok, M. T., Liu, J., Bliton, R. J., Hinesley, C. M., San Pedro, E. E. T., Breau, K. A., Gomez-Martinez, I., Burclaff, J., Magness, S. T.
Abstract:
Background & Aims: Clostridioides difficile (C. difficile) toxins A (TcdA) and B (TcdB) cause antibiotic-associated colitis and increase morbidity and mortality. Accurate in vitro models are necessary to detect early toxicity kinetics, investigate disease etiology, and develop pre-clinical models for new therapies. Properties of cancer cell lines and 3D organoids inherently limit these efforts. Here, we develop adult stem cell-derived monolayers of differentiated human colonic epithelium (hCE) with barrier function, investigate the impact of toxin application to apical/basal aspects of monolayers, and evaluate whether a leaky epithelial barrier enhances toxicity. Methods: Single-cell RNA-sequencing (scRNAseq) mapped C. difficile-relevant genes to cell lineages across the human gut. Transcriptomics informed timing of stem cell differentiation to achieve in vitro colonocyte maturation like that observed in vivo. Transepithelial electrical resistance (TEER) and fluorescent dextran permeability assays measured cytotoxicity as barrier loss post-toxin exposure. Leaky epithelial barriers were induced with diclofenac (DCF). Results: scRNAseq demonstrated broad and variable toxin receptor expression across the human gut lineages. Absorptive colonocytes displayed generally enhanced toxin receptor, Rho GTPase, and cell junction expression. 21-day differentiated Caco-2 cells remained immature whereas hCE monolayers were similar to mature colonocytes. hCE monolayers exhibited high barrier function after 1-day differentiation. Basal TcdA/B application to monolayers caused more toxicity and apoptosis than apical exposure. DCF induced leaky hCE monolayers and enhanced toxicity of TcdB exposure. Conclusions: hCE monolayers represent a physiologically relevant and sensitive culture system to evaluate impact of microbial toxins on gut epithelium, demonstrate uncoupled onset and magnitude of apical/basal toxicities with delayed apical toxicity, and highlight that leaky paracellular junctions enhance toxicity of apical TcdB exposure.
Copy rights belong to original authors. Visit the link for more info
Podcast created by Paper Player, LLC
Released:
Oct 14, 2022
Format:
Podcast episode
Titles in the series (100)
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