Cells that destroy the intestine

Symbolic picture for the article. The link opens the image in a large view.
Researchers from the Department of Medicine 1 have now discovered that so-called TRM cells (shown in yellow) presumably cause flare-ups in chronic inflammatory diseases, such as Morbus Crohn or ulcerative colitis. (Image: Universitätsklinikum Erlangen/S. Zundler)

Medical researchers discover a type of cell which induces acute inflammatory episodes in bowel diseases

More than 4000,000 people in Germany are affected by the chronic inflammatory bowel diseases Morbus Crohn or ulcerative colitis. Patients often suffer from flare-ups, which damage intestinal tissue. In spite of tremendous advances in treating the diseases with medication, the chronic inflammation still cannot be kept sufficiently in check for a number of patients. Until now, little has been known about what actually causes flare-ups. Working together with researchers from the Netherlands, researchers at the Department of Medicine 1 have now proven that certain cells in the intestines have a key role to play in inducing acute inflammatory episodes. It is hoped that this discovery will lead to innovative approaches to treating the diseases in future. The results of the research have now been published in the journal ‘Nature Immunology’.

Chronic inflammatory diseases are caused by a complex mixture of various factors. This leads eventually to the intestine’s immune system becoming over-stimulated, with the resulting inflammation often leading to serious symptoms of disease. The immune system in the intestines includes cells known as tissue resident memory cells, or TRM cells for short. So far, scientists were unaware of the part these cells had to play in causing chronic inflammation in the intestines.

A team of researchers at the Department of Medicine 1, led by Dr. Sebastian Zundler and Prof. Dr. Markus F. Neurath, have now successfully deciphered these mechanisms. In cooperation with Sanquin Research Institute in the Netherlands, the researchers were able to prove, for example, that TRM cells have a highly inflammatory potential, and appear to induce flare-ups. The data also suggest that TRM cells regulate the migration and differentiation of other immune cells and therefore have a central role to play in regulating the immune response. Accordingly, patients with a high proportion of TRM cells in their intestinal lining have a greater risk of suffering from acute inflammatory episodes than those with a lower proportion.

“Until now, no-one realised that TRM cells have a role to play in immunological diseases,” explains Prof. Neurath. “We believe that our findings are also of relevance for other chronic inflammatory diseases.” In addition, the researchers hope that their discovery will form the basis for treating diseases in future. “Future treatments may well be based on the important role TRM cells have to play in the chronic inflammation of the intestine,” predicts Dr. Zundler, “by taking early action, we may be able to suppress the disease or flare-ups of the condition.”

Further information

Prof. Dr. Markus F. Neurath
Phone: +49-9131-85-35204