AI Article Synopsis
- DNA methylation acts as a repressive mark on DNA, and the TET family of enzymes can reverse this by converting modified cytosine forms back to unmodified ones, which may influence inflammatory bowel disease (IBD).
- Research demonstrated that TET3 plays a vital role in mouse intestinal cell differentiation and stress response; TET3-deficient mice showed weakened immune response and increased susceptibility to infections due to lower 5-hydroxymethylcytosine (5hmC) levels.
- Additionally, exposure to pathogens and stressors alters 5hmC levels, highlighting TET3's importance in gut health and the maintenance of tissue balance during environmental challenges.
Article Abstract
DNA methylation functions as a repressive epigenetic mark that can be reversed by the Ten-eleven translocation (TET) family of DNA dioxygenases that sequentially oxidize 5-methylcytosine into 5-hydroxymethylcytosine (5hmC), 5-formylcytosine (5fC), and 5-carboxylcytosine (5caC). Both 5fC and 5caC can be excised by DNA base-excision repair factors leading to unmodified cytosines. TET enzymes were recently implicated as potential risk factors for inflammatory bowel disease (IBD), but the contribution of TET-mediated DNA oxidation to intestinal homeostasis and response to environmental stressors are unknown. Here, we show prominent roles of TET3 in regulating mouse intestinal epithelial differentiation and response to luminal stressors. Compared with wild-type littermates, mice with intestinal epithelial cell-specific ablation of () demonstrated a decreased transcriptome involved in innate immune response, Paneth cell differentiation, and epithelial regeneration. mice exhibited an elevated susceptibility to enteric pathogen infection that is correlated with a decreased epithelial 5hmC abundance. Infection of human enterocytes or mice with the pathogenic bacteria acutely increased 5hmC abundance. Genome-wide 5hmC profiling revealed a shift of genomic enrichment of 5hmC toward genes involved in activating Notch, Wnt, and autophagy pathways. Furthermore, chemical stressor dextran sulfate sodium (DSS) represses epithelial 5hmC abundance in a temporal fashion, and mice exhibited increased susceptibility to DSS experimental colitis with reduced regenerative capacity. TET3 is a critical regulator of gut epithelial DNA methylome and transcriptome, especially in response to luminal stressors, for the maintenance of tissue homeostasis.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10500271 | PMC |
| http://dx.doi.org/10.1073/pnas.2221405120 | DOI Listing |
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