A type of autoimmune enteritis caused by a recently discovered genetic mutation has been cured using targeted immunotherapy, researchers at the Department of Biomedicine of the University of Basel and University Hospital Basel report.
The results raise new possibilities for the management of diarrhea, often a side effect of melanoma treatment.
Immunodeficiencies can arise due to gene mutations in immune system proteins. As such mutations rarely occur, these immunodeficiencies often go unrecognized or are detected too late for effective treatment.
Currently, there are more than 300 different known genetically determined immunodeficiencies, with new examples being described almost every week.
Chronic Autoimmune Enteritis
Prof. Mike Recher’s research group at the Department of Biomedicine of the University of Basel and University Hospital Basel recently discovered a genetic immunodeficiency associated with serious, chronic autoimmune enteritis in an adult patient. They were able not only to describe the new mutation, but also to successfully treat the patient with targeted therapy.
The patient had a rare mutation in the CTLA-4 protein found on the surface of T-cells. Normally, this protein prevents immune cells from attacking an patient’s own body.
However, as it was not functioning adequately due to the mutation, T-cells attacked the patient’s own intestinal cells, causing chronic inflammation. This resulted in the patient suffering from severe diarrhea and weight loss.
These unusual symptoms led the cantonal hospital of Graubünden to refer the patient to the special clinic for immunodeficiency at the University Hospital Basel. Initial immunological investigations suggested a genetically determined dysregulation of the immune system.
The new CTLA-4 gene mutation was discovered following subsequent analysis of the entire genome at the University Hospital Zurich. Further investigations showed that the mutation causes reduced CTLA-4 function, which led to increased infiltration of the intestinal mucosa by T-cells and therefore to chronic diarrhea.
Treatment With Vedolizumab
Working in close cooperation with University Hospital Basel’s gastroenterology department, the doctors opted for a therapy that uses a new drug from the monoclonal antibody group to prevent the T-cells from penetrating the intestinal mucosa. This drug (vedolizumab) blocks a specific adhesion molecule on the surface of the T-cell and thereby inhibits immune cells from binding themselves to receptors present in the intestine, preventing the T-cells from penetrating the blood vessels in the intestinal tissue.
This treatment produced the desired outcome.
After three months, the patient’s chronic diarrhea had stopped completely.
In some diseases, however, CTLA-4 inhibition can be used therapeutically, as in the treatment of skin cancer (melanoma). The drug Ipilimumab works similarly to the CTLA-4 mutation, meaning that immune system T-cells are no longer properly inhibited and can more efficiently attack the malignant skin cancer cells.
One of the side-effects of this therapy is autoimmune intestinal inflammation – analogous to the inflammation that occurs in patients with the CTLA-4 gene mutation. It is possible that melanoma patients, who suffer severe diarrhea due to the inhibition of their CTLA-4 function, will benefit from this new insight, which opens up new therapeutic possibilities for Vedolizumab.
Alexander A. Navarini, Petr Hruz, Christoph T. Berger, Tie Zheng Hou, Charlotte Schwab, Annemarie Gabrysch, Rebecca Higgins, Natalie Frede, Barbara-Christina Padberg Sgier, Olle Kämpe, Anne-Valérie Burgener, Florian Marquardsen, Fabian Baldin, Marc Bigler, Anne Kistner, Annaise Jauch, Olivier Bignucolo, Benedikt Meyer, Fabian Meienberg, Matthias Mehling, Lukas T. Jeker, Ingmar Heijnen, Thomas D. Daikeler, Jan-Olaf Gebbers, Bodo Grimbacher, David M. Sansom, Raphael Jeker, Christoph Hess, Mike Recher
Vedolizumab as a successful treatment of CTLA-4–associated autoimmune enterocolitis
Journal of Allergy and Clinical Immunology (2016), doi: 10.1016/j.jaci.2016.08.042
Last Updated on November 7, 2022