Prebiotic proanthocyanidins inhibit bile reflux–induced esophageal adenocarcinoma through reshaping the gut microbiome and esophageal metabolome
Katherine M. Weh, … , Maria Westerhoff, Laura A. Kresty
Katherine M. Weh, … , Maria Westerhoff, Laura A. Kresty
Published February 8, 2024
Citation Information: JCI Insight. 2024;9(6):e168112. https://doi.org/10.1172/jci.insight.168112.
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Research Article Gastroenterology Oncology

Prebiotic proanthocyanidins inhibit bile reflux–induced esophageal adenocarcinoma through reshaping the gut microbiome and esophageal metabolome

Abstract

The gut and local esophageal microbiome progressively shift from healthy commensal bacteria to inflammation-linked pathogenic bacteria in patients with gastroesophageal reflux disease, Barrett’s esophagus, and esophageal adenocarcinoma (EAC). However, mechanisms by which microbial communities and metabolites contribute to reflux-driven EAC remain incompletely understood and challenging to target. Herein, we utilized a rat reflux-induced EAC model to investigate targeting the gut microbiome–esophageal metabolome axis with cranberry proanthocyanidins (C-PAC) to inhibit EAC progression. Sprague-Dawley rats, with or without reflux induction, received water or C-PAC ad libitum (700 μg/rat/day) for 25 or 40 weeks. C-PAC exerted prebiotic activity abrogating reflux-induced dysbiosis and mitigating bile acid metabolism and transport, culminating in significant inhibition of EAC through TLR/NF-κB/TP53 signaling cascades. At the species level, C-PAC mitigated reflux-induced pathogenic bacteria (Streptococcus parasanguinis, Escherichia coli, and Proteus mirabilis). C-PAC specifically reversed reflux-induced bacterial, inflammatory, and immune-implicated proteins and genes, including Ccl4, Cd14, Crp, Cxcl1, Il6, Il1b, Lbp, Lcn2, Myd88, Nfkb1, Tlr2, and Tlr4, aligning with changes in human EAC progression, as confirmed through public databases. C-PAC is a safe, promising dietary constituent that may be utilized alone or potentially as an adjuvant to current therapies to prevent EAC progression through ameliorating reflux-induced dysbiosis, inflammation, and cellular damage.

Authors

Katherine M. Weh, Connor L. Howard, Yun Zhang, Bridget A. Tripp, Jennifer L. Clarke, Amy B. Howell, Joel H. Rubenstein, Julian A. Abrams, Maria Westerhoff, Laura A. Kresty

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Figure 4

C-PAC mitigates reflux-induced esophageal metabolite dysregulation.

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C-PAC mitigates reflux-induced esophageal metabolite dysregulation. (A) ...
(A) Venn diagram depicting significant (P ≤ 0.05) metabolites in reflux versus water (n = 319) and C-PAC+reflux versus reflux (n = 264) groups. The blue and green sections represent metabolites exclusive to reflux versus water (n = 119) and C-PAC+reflux versus reflux (n = 64), respectively. The yellow section represents metabolites induced by reflux and directly reversed by C-PAC (n = 200). Metabolite directionality is noted as upregulated (↑) or downregulated (↓). (B) The top 10 pathway maps for metabolites induced by reflux and directly reversed by C-PAC in the context of reflux. Supplemental Tables 9 and 10 provide complete lists of significant pathway maps. (C) The top 10 metabolic networks induced by reflux and directly reversed by C-PAC in the context of reflux. Supplemental Tables 11 and 12 provide complete results of significant metabolic networks detected. Pathway set enrichment analysis performed in Metabolync for (D) reflux versus water and (E) C-PAC+reflux versus reflux, where black bars are shared between comparisons and vertical striped bars are exclusive to the comparison in each panel. Significant pathway maps and metabolic networks are based on P ≤ 0.05 and FDR ≤ 0.05. C-PAC, cranberry proanthocyanidins.