Mapping immune cell interactions in gut tissue reveals changes in ulcerative colitis
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In a new study published in Science Immunology, researchers at King's College London looked at a type of tissue important for the immune response called gut-associated lymphoid tissue (GALT), which is located within the lining of the gut. Unlike other tissue structures in the gut lining that act as a barrier between the trillions of bacteria in the gut and the rest of the body, GALT actively transports gut microbes into the body. By doing this, GALT activates immune responses that help maintain a stable relationship with beneficial gut bacteria.
Typically, when the body encounters microbes, it triggers inflammation, sending immune cells to the affected area to fight the pathogen. However, GALT behaves differently. Despite its close and consistent interaction with microbes, GALT does not become inflamed.
To understand how GALT achieves this, the team mapped the interactions and locations of immune cells in GALT. They also looked at how these interactions changed in ulcerative colitis—an inflammatory bowel disease in which parts of the large bowel become swollen, inflamed and ulcerated. According to Crohn's & Colitis UK, at least 1 in every 233 people in the U.K. have ulcerative colitis. The condition can significantly affect quality of life. Previous research has linked GALT in the appendix to ulcerative colitis.
To build the map, the team looked at immune cells in GALT taken from samples of appendix tissue from healthy individuals and people with severe ulcerative colitis. Using specialized techniques including spatial transcriptomics and single-cell RNA sequencing, they looked at what genes were "switched on" in different immune cells and where exactly different groups of immune cells were located within GALT.
The team then zoomed in further to look at white blood cells called B cells, which produce proteins called antibodies to help destroy pathogens.
In healthy tissue, the team saw that B cells interact with other groups of immune cells, including another type of white blood cell called T cells, in ways that have the potential to prevent inflammation. The different immune cells also existed in separate "neighborhoods" within the tissue, with the most interactive B cells located just under the outer layer of GALT, where they would be close to microbes sampled from the gut.
However, in severe ulcerative colitis, normal immune cell interactions and locations were disrupted. B cells and T cells tended to be mixed rather than existing in separate neighborhoods. The most interactive B cells were also displaced and found to be farther away from the outer layer of the tissue, which could perhaps limit their ability to dampen the immune response against harmless food proteins or gut bacteria, the authors say.
"Our study is the first to describe how B cells regulate the immune response in GALT and how dysregulation of these behaviors may contribute to inflammatory bowel disease," said Professor Jo Spencer, professor of experimental medicine and lead author of the paper.
"Previous research has shown that a drug used in the treatment of ulcerative colitis targets GALT. The altered distribution of interactions in GALT that control the immune response that we see in appendix tissue from people with ulcerative colitis could help us understand better how existing treatments work and also to direct new therapies."
The study highlights the importance of B cell interactions in maintaining a balanced immune response in GALT and how disruption of these interactions could be linked to inflammatory conditions such as ulcerative colitis.
Publication details
Michael J. Pitcher et al, Atlas of human gut-associated lymphoid tissue reveals immunomodulatory interactions of B cells, Science Immunology (2026). DOI: 10.1126/sciimmunol.ady8948
Journal information: Science Immunology
Key medical concepts
Ulcerative ColitisGut-Associated Lymphoid TissueB-LymphocytesSpatial Transcriptomics
Clinical categories
GastroenterologyAllergy and immunologyCommon illnesses & Prevention Provided by King's College London Who's behind this story?
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