Researchers at Karolinska Institutet in Sweden have studied which genes are expressed in overactive immune cells in mice with asthma-like inflammation of the airways. Their results, which are published in the journal Immunity, suggest that the synthesis and breakdown of fats plays an important part in the process.
The job of the human immune system is to read our environment and react to potentially harmful substances. In asthma, the immune system is overactive, causing inflammation in the lungs and symptoms such as coughing, wheezing and shortness of breath.
A kind of immune T cell called a Th2 plays a vital part in asthma-related inflammation, but the rarity of these cells and a lack of screening technology has made these cells hard to study in any detail.
Researchers at Karolinska Institutet have now used a highly sensitive technique called single-cell RNA sequencing to analyze which genes are active in individual T cells. For the study, the team exposed mice to house dust mites, a common allergen to which most asthmatics are sensitive, and which induces asthma-like lung inflammation. They monitored gene expression in T cells before and after exposure to the allergens in the lymph glands to the point of inflammation in the lungs.
They found that in the mouse lung, the T cells express a unique profile of hundreds of genes, many of which are linked to how the cells make and break down fat. When they gave mice a drug to block fat metabolism, the lung inflammation decreased relative to controls.
“Our results suggest that fats can help to aggravate the T-cell activated inflammation in the lungs that is seen in asthma,” says the study’s corresponding author Jonathan Coquet, researcher at the Department of Microbiology, Tumor and Cell Biology, Karolinska Institutet. “We now plan to systematically test the importance of the hundreds of uniquely expressed genes in order to find those that can trigger or prevent the development of the disease.”
Another feature of the study was that when T cells reached the lungs from the lymph glands, they received signals that switched on the production of two powerful inflammatory substances: the cytokines interleukin 5 and 13. These cytokines are responsible for many asthma symptoms such as respiratory tract inflammation, muscle contraction and mucus discharge.
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