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Biological mechanism explained: How lymphoma cells form brain metastases

No. 41 | 16/09/2019 | by Rei

Lymphomas in the central nervous system are rare but dangerous. Scientists at the German Cancer Research Center (DKFZ) have now discovered which molecular mechanism leads to lymphomas forming metastases in the central nervous system. Using a mouse model, the researchers showed that chronic inflammatory processes in aging brains lead to lymphoma cells that have entered the brain tissue being retained instead of being released directly back into the blood. They also identified key molecules of this mechanism in tissue samples from patients with lymphomas of the central nervous system. The researchers therefore hope to have identified a potential approach for developing new therapeutic approaches.

Using a special microscopy technique, scientists can observe single lymphoma cells (stained red) in the living brain of a mouse over a longer period of time. After 24 hours, the lymphoma cell has migrated from the blood vessel into the brain tissue (right).
© Heikenwälder/DKFZ

Lymphomas of the central nervous system (CNS) are a rare and very aggressive form of lymph gland cancer. Patients with secondary CNS lymphomas in particular have a poor prognosis. These CNS lymphomas are metastatic lymphomas that first occur in other parts of the body, such as the spleen. Up to now, it was largely unclear how lymphoma cells enter the brain and become lodged there. "We have now demonstrated that inflammatory processes in the brain play a key role," explained Mathias Heikenwälder from the German Cancer Research Center (DKFZ) in Heidelberg. In collaboration with colleagues from the Helmholtz Center Munich and TU Munich, Heikenwälder and his team managed to discover the underlying cell biology mechanisms.

An important factor in connection with chronical inflammation in the brain is NF-kappaB. This transcription factor determines which genes are active in a cell and plays an important role in regulation of the immune response. Moreover, there are increasing indications that NF-kappaB and its signaling pathway are also important in connection with CNS lymphomas.

In order to examine inflammatory processes in the brain, the researchers bred genetically modified mice in which NF-kappaB is permanently active in the CNS. "Very early on, these animals develop inflammation in the brain. We also find such inflammatory reactions in brains from lymphoma patients whose tissues we've examined." Heikenwälder explained.

His team injected lymphoma cells into these animals and the rodents did in fact develop metastatic lymphomas in the CNS. This did not happen in mice without chronic NF-kappaB activation. "Using a special microscopy technique, we observed that the lymphoma cells enter the brain from the blood vessels in normal mice too. However, in these animals, they do not remain in the brain; instead, they go back into the peripheral blood vessels. In the genetically modified rodents, the lymphoma cells that have entered the brain remain there. So we wanted to know what keeps them there," Heikenwälder continued.

In a healthy brain without inflammation, a messenger substance ensures that both white blood cells and lymphoma cells leave the brain tissue and go back into the blood vessels. The DKFZ scientists have now identified an important antagonist of this messenger substance in their experiments: the signaling molecule CCL19, the production of which is stimulated by NF-kappaB. "The two messenger substances fight so to speak over where the lymphoma cells go," Heikenwälder explained. "In the event of inflammation with increased NF-kappaB activity, there is also more CCL19, which means it gains the upper hand and keeps the lymphoma cells in the brain." There, they multiply and develop into tumors.

The researchers found a similar situation in human brains. In people affected by primary or secondary brain lymphomas, the NF-kappaB signaling pathway is also activated, so there is more CCL19. As in the mice, the messenger substance is released by special brain cells known as astrocytes.

The DKFZ researchers have thus not only provided the first explanation of how secondary CNS lymphomas arise. "We have also identified inflammatory processes in the brain as potential risk factors for CNS lymphomas," Heikenwälder continued.

In their experiment, lymphoma cells in older animals that were not genetically modified behaved exactly like those in young genetically modified animals with chronic inflammation. "Now we can think about whether and how inflammation in the brains of lymphoma patients can be treated to prevent the development of secondary CNS lymphomas."

Tracy O'Connor, Xiaolan Zhou, Jan Kosla, Arlind Adili, Maria Garcia Beccaria, Elena Kotsiliti, Dominik Pfister, Anna-Lena Johlke, Ankit Sinha, Roman Sankowski8, Markus Schick, Richard Lewis, Nikolaos Dokalis, Bastian Seubert, Bastian Höchst, Donato Inverso, Danijela Heide, Wenlong Zhang, Petra Weihrich, Katrin Manske, Dirk Wohlleber, Martina Anton, Alexander Höllein, Gitta Seleznik, Juliane Bremer, Sabine Bleul, Helmut Augustin, Florian Scherer, Uwe Ködel, Achim Weber, Ulrike Protzer, Reinhold Förster, Thomas Wirth, Adriano Aguzzi, Felix Meissner, Marco Prinz, Bernd Baumann, Uta E. Höpken, Percy A. Knolle, Louisa von Baumgarten, Ulrich Keller, Mathias Heikenwälder: Age-related gliosis promotes central nervous system lymphoma through CCL19-mediated tumor cell retention.
Cancer Cell, 2019, DOI: 10.1016/j.ccell.2019.08.001

 

With more than 3,000 employees, the German Cancer Research Center (Deutsches Krebsforschungszentrum, DKFZ) is Germany’s largest biomedical research institute. DKFZ scientists identify cancer risk factors, investigate how cancer progresses and develop new cancer prevention strategies. They are also developing new methods to diagnose tumors more precisely and treat cancer patients more successfully. The DKFZ's Cancer Information Service (KID) provides patients, interested citizens and experts with individual answers to questions relating to cancer.

To transfer promising approaches from cancer research to the clinic and thus improve the prognosis of cancer patients, the DKFZ cooperates with excellent research institutions and university hospitals throughout Germany:

  • National Center for Tumor Diseases (NCT, 6 sites)
  • German Cancer Consortium (DKTK, 8 sites)
  • Hopp Children's Cancer Center (KiTZ) Heidelberg
  • Helmholtz Institute for Translational Oncology (HI-TRON Mainz) - A Helmholtz Institute of the DKFZ
  • DKFZ-Hector Cancer Institute at the University Medical Center Mannheim
  • National Cancer Prevention Center (jointly with German Cancer Aid)
The DKFZ is 90 percent financed by the Federal Ministry of Education and Research and 10 percent by the state of Baden-Württemberg. The DKFZ is a member of the Helmholtz Association of German Research Centers.

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