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A Similar Mutation in the AAUU-Rich Elements of the Mouse TNF Gene Results in a Distinct Ileocolitic Phenotype: A New Strain of TNF-Overexpressing Mice
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A Similar Mutation in the AAUU-Rich Elements of the Mouse TNF Gene Results in a Distinct Ileocolitic Phenotype: A New Strain of TNF-Overexpressing Mice
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A Similar Mutation in the AAUU-Rich Elements of the Mouse TNF Gene Results in a Distinct Ileocolitic Phenotype: A New Strain of TNF-Overexpressing Mice
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Journal Article
A Similar Mutation in the AAUU-Rich Elements of the Mouse TNF Gene Results in a Distinct Ileocolitic Phenotype: A New Strain of TNF-Overexpressing Mice
2025
Overview
Abstract
Background
Tumor necrosis factor (TNF) is a pleiotropic cytokine that plays a critical role in the pathogenesis of immune-mediated diseases including inflammatory bowel disease (IBD). The stability of its mRNA transcript, determined in part by destabilizing sequences in its AAUU repeats (ARE) gene region, is an important regulator of its tissue and systemic levels. A deletion in the ARE region of the gene resulted in IBD and arthritis in mice and pigs, supporting a critical role for the cytokine in human IBD and several human arthritides. A mutation in the same area of the mouse genome by Genentech scientists (T.Y., M.K.) resulted in a similar but not identical phenotype.
Methods
Here, we compare histopathological, cellular, and molecular features of the strains and propose reasons for their distinct phenotypes. First, while homozygous TNFΔARE mice develop severe arthritis and die after weaning, homozygous Genentech TNFΔARE (ΔG/ΔG) mice have normal lifespans, and males are often fertile.
Results
We found that while the ileitic phenotype had peaked at 12 weeks of age in all mice, colitis progressed mostly after 20 weeks of age in heterozygous mice. Their variably penetrant arthritic phenotype progressed mostly after 20 weeks, also in heterozygous mice from both strains. There was expansion of central memory T and B cells in lymphoid organs of TNF-overproducing strains and their transcriptional profile shared well-known pathogenetic pathways with human IBD. Finally, we found differences in the mutated sequences within the ARE regions of the TNF gene and in their microbiota composition and genetic background. These differences likely explain their phenotypic differences.
Conclusions
In summary, we describe a different strain of TNF-overproducing mice with an overlapping, yet not identical phenotype, which may have differential applications than the original strain.
Publisher
Oxford University Press
