How dying cells prevent dangerous immune reactions

January 08, 2020

Dying cells in the body can keep the immune system in check, thus preventing unwanted immune responses against the body's own tissues. Scientists from the German Cancer Research Center have now identified a receptor on murine immune cells that activates this protective mechanism and can thus prevent dangerous autoimmune reactions in which the immune system attacks the patient's own body tissues.

Billions of cells die every day in the human body. This occurs as part of a highly regulated process called apoptosis or programmed cell death. The dying cells confront the immune system with large amounts of proteins, which ought to activate an immune response, but the apoptotic cells seem to actively suppress the immune system so that it does not attack the body's own tissues. "We began wondering many years ago what kind of protective mechanism prevents autoimmune reactions - the body attacking its own tissues - when cells in the immune system, such as dendritic cells, take up the remains of the dead cells," Peter Krammer, an immunologist at the German Cancer Research Center (DKFZ), remarked.

Krammer, his colleague Heiko Weyd, and their team recently found an answer to the question: As soon as apoptosis is triggered, the dying cells transport proteins from the annexin family to the cell surface. The annexins act like a stop signal for the cells of the immune system and prevent an immune response from being triggered.

Kevin Bode from Krammer's department has now identified the dectin-1 protein as the annexin-binding receptor on the surface of dendritic cells: Dectin-1 recognizes the annexins and triggers a signaling pathway in dendritic cells that ultimately suppresses the immune response.

Mice that do not have any dectin-1 on the surface of their dendritic cells showed a stronger immune response to dying, apoptotic cells. Moreover, the mice without dectin-1 developed signs of autoimmune diseases in old age.

The DKFZ scientists thus discovered an important control mechanism for the immune system's 'self-tolerance'. "But we assume that the body has other protective functions to prevent autoimmune reactions too. That's why the loss of dectin-1 in the animals does not become apparent until later in life," Bode explained.

"Interestingly, dectin-1 has a dual role," added Peter Krammer. Dectin-1 not only binds annexins; it also binds certain pathogens at a different binding site. This has the opposite effect and triggers an immune response. "We thus identified a crucial immune checkpoint which, depending on the binding partner, either triggers or suppresses the immune response," Krammer explained, emphasizing the importance of the work.

A key link in the dectin-1 signaling pathway is the enzyme NADPH oxidase 2. People who lack this enzyme develop autoimmune diseases. In cooperation with the Children's Hospital Zurich and Heidelberg University Hospital, the DKFZ researchers are therefore currently examining blood samples from patients lacking NADPH oxidase 2 to find new starting points for potential treatments.

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Autoimmune diseases have a hugely detrimental impact on patients' lives and in some cases are even life-threatening. In order to develop effective treatments, it is therefore vital to know which mechanisms suppress the immune responses to a patient's own body tissues or in contrast activate them. By establishing the interaction between annexin on the surface of dying cells and dectin-1 on the dendritic cells, Bode and his colleagues identified a key mechanism that prevents autoimmune reactions in healthy body tissues. In doing so, they have found an interesting starting point for future drug treatments.

Although the interactions between annexin and dectin-1 were initially identified in a Petri dish, the scientists needed an animal - with all the diversity of the various components of the immune system - to demonstrate that the bond between these two proteins actually suppresses autoimmune reactions.
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Kevin Bode, Fatmire Bujupi, Corinna Link, Tobias Hein, Stephanie Zimmermann, Diluka Peiris, Vincent Jaquet, Bernd Lepenies, Heiko Weyd and Peter H. Krammer: Dectin-1 binding to annexins on apoptotic cells induces peripheral immune tolerance via NADPH oxidase-2

CELL Reports DOI: 10.1016/j.celrep.2019.11.086

The German Cancer Research Center (Deutsches Krebsforschungszentrum, DKFZ) with its more than 3,000 employees is the largest biomedical research institution in Germany. At DKFZ, more than 1,300 scientists investigate how cancer develops, identify cancer risk factors and endeavor to find new strategies to prevent people from getting cancer. They develop novel approaches to make tumor diagnosis more precise and treatment of cancer patients more successful.

DKFZ's Cancer Information Service (KID) provides individual answers to all questions about cancer for patients, the general public, and health care professionals.

Jointly with partners from Heidelberg University Hospital, DKFZ runs the National Center for Tumor Diseases (NCT) located in Heidelberg and Dresden, and, also in Heidelberg, the Hopp Children's Cancer Center (KiTZ). In the German Cancer Consortium (DKTK), one of six German Centers for Health Research, DKFZ maintains translational centers at seven university partnering sites. Combining excellent university hospitals with high-profile research at a Helmholtz Center at the NCT and DKTK sites is an important contribution to the endeavor of translating promising approaches from cancer research into the clinic in order to improve the chances of cancer patients.

DKFZ is a member of the Helmholtz Association of National Research Centers, with ninety percent of its funding coming from the German Federal Ministry of Education and Research and the remaining ten percent from the State of Baden-Württemberg.

German Cancer Research Center (Deutsches Krebsforschungszentrum, DKFZ)

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