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Colonic gene mapping gives insights into intestinal diseases

Using a technique called spatial transcriptomics, researchers at Karolinska Institutet in Sweden have analysed the gene expression in the mouse colon and created a map showing where in the tissue individual genes are expressed. When they superimposed previously known human transcription data onto the map, the researchers gained new insights into inflammatory bowel disease (IBD). The study is published in the journal Nature Communications.

The group used a technique known as spatial transcriptomics (ST) to map the gene activity of individual cells in the murine colon. According to the researchers, this is the first time anyone has been able to visualise the gene expression landscape of the entire intestine, in health and recovery after injury.

“Our spatial transcriptomics-driven visualisation enabled us to discover several previously unknown aspects, such as that the colon is divided into more segments than once thought,” says the study’s corresponding author Eduardo J. Villablanca, docent at the Department of Medicine, Solna at Karolinska Institutet.

When the results were combined with known transcription data from human tissue, the scientists noticed that the location of certain intestinal cells was the same in both mice and humans, which makes the model a tool for understanding how different diseases, such as IBD, affect the colon.

In an earlier study, Eduardo J. Villablanca’s research group showed that ulcerative colitis can be divided into two subgroups with different gene expressions. With reference to the new map, they were able to show that the genes for the more difficult to treat forms of the disease were found in tissue that was also more damaged.

“Similarly, the gene map can be used to see where in the colon human cells are active, which can make a significant contribution to the development of new treatments and drugs,” Villablanca says.

Spatial transcriptomics was developed at SciLifeLab by scientists from KTH Royal Institute of Technology and Karolinska Institutet. It allows the visualization of gene expression in the tissue. However, to visualize a long tubular organ like the colon, the researchers behind this study applied the technique in a novel way. By rolling up the colon like a Swiss roll, they managed to fit and map the entire gene expression landscape of a long organ.

“We now want to use the same method to create a similar atlas for all digestive organs, from the mouth to the rectum,” Villablanca explains. “Our aim is to create a reference map for the gene expression of all these tissues.”

A gene atlas of the entire digestive organ will be useful in many ways, such as for exploring the link between gut bacteria and cellular gene expression, and for gaining a better understanding of how different diets affect its various functions.

The study was conducted at Karolinska Institutet with financial support from, among others, the Swedish Research Council, the Swedish Research Council for Environment, Agricultural Sciences and Spatial Planning (Formas), the Swedish Cancer Society and the Knut and Alice Wallenberg Foundation.

Some of the authors have reported declarations of interest: Eduardo J. Villablanca has received research funding from the pharmaceutical company F. Hoffmann-La Roche; and Camilla Engblom, Ludvig Larsson and Joakim Lundeberg are scientific advisors to 10X Genomics, which acquired the company Spatial Transcriptomics in 2018.

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Materials provided by Karolinska Institutet. Note: Content may be edited for style and length.

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