Age-related dysregulation of intestinal epithelium fucosylation is linked to an increased risk of colon cancer
Zhihan Wang, … , Donald A. Jurivich, Ramkumar Mathur
Zhihan Wang, … , Donald A. Jurivich, Ramkumar Mathur
Published January 30, 2024
Citation Information: JCI Insight. 2024;9(5):e167676. https://doi.org/10.1172/jci.insight.167676.
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Research Article Aging Microbiology

Age-related dysregulation of intestinal epithelium fucosylation is linked to an increased risk of colon cancer

Abstract

Colon cancer affects people of all ages. However, its frequency, as well as the related morbidity and mortality, are high among older adults. The complex physiological changes in the aging gut substantially limit the development of cancer therapies. Here, we identify a potentially unique intestinal microenvironment that is linked with an increased risk of colon cancer in older adults. Our findings show that aging markedly influenced persistent fucosylation of the apical surfaces of intestinal epithelial cells, which resulted in a favorable environment for tumor growth. Furthermore, our findings shed light on the importance of the host-commensal interaction, which facilitates the dysregulation of fucosylation and promotes tumor growth as people get older. We analyzed colonic microbial populations at the species level to find changes associated with aging that could contribute to the development of colon cancer. Analysis of single-cell RNA-sequencing data from previous publications identified distinct epithelial cell subtypes involved in dysregulated fucosylation in older adults. Overall, our study provides compelling evidence that excessive fucosylation is associated with the development of colon cancer, that age-related changes increase vulnerability to colon cancer, and that a dysbiosis in microbial diversity and metabolic changes in the homeostasis of older mice dysregulate fucosylation levels with age.

Authors

Zhihan Wang, Pan Gao, Kai Guo, Grace Schirrick, Jappreet Singh Gill, Jett Weis, Abby Lund Da Costa, Mansib Rahman, Het Mehta, Julia Fleecs, Shilpi Jain, Trishna Debnath, Junguk Hur, Nadeem Khan, Robert Sticca, Holly M. Brown-Borg, Donald A. Jurivich, Ramkumar Mathur

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Figure 4

The microbial diversity with aging influences age-related epithelium fucosylation.

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The microbial diversity with aging influences age-related epithelium fuc...
(A) Relative abundance of the most prevalent bacterial phyla among groups. Color stands for phylum level. (B) Principal coordinates analysis (PCoA) of the β-diversity based on the Bray-Curtis metric. Colors stand for different groups. (C) Venn diagram shows unique or shared significant bacteria from 3 comparisons (1Y versus 8W, 2Y versus 8W, and 2Y versus 1Y). (D) Comparison of the significantly differential microbiome at the genus level. Only bacteria with significant differences (adjusted P < 0.05 & |log2fold-change| > 1) between the 2Y versus 8W mice are shown. Colors stand for phylum level. (E) The top 30 differential bacteria distinguish 2Y from 8W mice based on the random forest (RF) model. The bar lengths represent mean decrease in accuracy, indicating the importance of classification. (F) Representative heatmap of significant KEGG pathways associated with relative bacterial abundance in 2Y versus 8W mice. The values are scaled by rows (n = 6 per group). Only the pathways with significant differences (P < 0.05) are shown. (G) Venn diagram shows unique or shared significant pathways from 3 comparisons (2Y versus 8W, 2Y versus 1Y, and 1Y versus 8W).