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Anticoagulants reduce the number of brain metastases in mice

No. 01 | 05/01/2021 | by Koh

Brain metastases can only develop if cancer cells first exit the fine blood vessels and enter into the brain tissue. To facilitate this step, cancer cells influence blood clotting, as scientists from the German Cancer Research Center and Heidelberg University Hospital have now been able to show in mice. The cancer cells actively promote the formation of clots, which helps them to arrest in the fine brain vessels and then penetrate through the vessel wall into the brain. Drugs that inhibit the clotting factor thrombin were able to reduce the number of brain metastases in this experimental model.

Pictures in the upper row: Inhibition of a blood clotting factor (von Willebrand factor) with specific antibodies reduces the formation of brain metastases (stained red) in mice.
© Frank Winkler/ DKFZ, UKHD

Brain metastases are a feared complication of advanced cancers. Different cancers differ in their tendency to colonize the brain. Advanced-stage melanoma forms metastases in the brain in nearly half of all cases, and brain metastases are also very common in certain forms of breast cancer and lung cancer.

Brain metastases often cannot be removed surgically and frequently show no long-term response to treatments. "For patients with cancers that often spread to the brain, it would be extremely helpful if we had a treatment available that could prevent brain metastases from developing," explains Frank Winker, head of a research group at the German Cancer Research Center and managing senior physician at Heidelberg University Neurological Hospital.

It was already known from observational studies that antithrombotic drugs that inhibit blood clotting can have a favorable effect on the prognosis of certain cancers. It is possible that these agents influence metastasis. Winkler and his colleagues have now investigated in mice whether this also applies to brain metastases and, if so, how blood clotting and metastasis are linked. This study was made possible by a special microscopic technique (in vivo multiphoton laser-scanning microscopy) that allows the researchers to look deep into brain tissue and track individual cancer cells.

The mice were injected with melanoma or breast cancer cells into the bloodstream. Individuals of the circulating tumor cells then became arrested in the fine blood capillaries of the brain. Only if these cells now succeed in penetrating the vascular wall into the brain tissue can they grow into a brain metastasis. Winker and colleagues observed that blood clots (thrombi) frequently formed around the arrested tumor cells. Cancer cells around which no such clot formed did not manage to penetrate the capillary wall. "Apparently, the thrombus helps the cells hold on to the capillary for a long time in preparation for passage through the vessel wall," Winkler explains.

The Heidelberg researchers found that the tumor cells apparently intervene directly in the complex cascade of blood clotting and thus actively trigger the formation of the thrombi. They promote the formation of the clotting factor thrombin, which is required for the formation of the long-fiber protein fibrin, of which the network of the clot mainly consists.

Thrombus formation, the researchers realized, is the necessary prerequisite for tumor cells to leave the capillary and thus take the crucial first step toward forming a brain metastasis. An drug that inhibits thrombin would therefore have to suppress metastasis because it prevents the tumor cells from penetrating into the brain tissue. And indeed: mice that received the thrombin inhibitor dabigatran, which is already approved as a drug, developed significantly fewer metastases than untreated animals.
Inhibition of another blood clotting factor (von Willebrand factor) with specific antibodies also reduced the formation of thrombi in the mice - and subsequently the number of brain metastases that developed.

"These experiments show that it is primarily the influence of the cancer cells on the plasmatic coagulation factors that promotes the development of brain metastases. This is why a preventive drug should target precisely this process," explains Manuel Feinauer, first author of the current publication.

"Our goal is to identify drugs for the prevention of brain metastases in high-risk patients," says Winkler. "The studies in mice are a first step toward understanding exactly how theses substances can prevent tumor cells from colonizing the brain. In the long term, we then want to test these substances in clinical trials. To do this, we first need to better understand for which cancer subtypes this mechanism is particularly important, and also whether we can even better identify patients with a particularly high risk of brain metastases."

The researchers are optimistic because the drugs that inhibit thrombin have at least one already known advantage: they have long been prescribed for the prevention of strokes and are therefore considered to be comparatively well tolerated, even over long periods of time.

Manuel J. Feinauer, Stefan Werner Schneider, Anna S. Berghoff, Jose Ramon Robador, Cedric Tehranian, Matthia A. Karreman, Varun Venkataramani, Gergely Solecki, Julia Katharina Grosch, Katharina Gunkel, Bogdana Kovalchuk, Frank Thomas Mayer, Manuel Fischer, Michael O. Breckwoldt, Maik Brune, Yannick Schwab, Wolfgang Wick, Alexander Thomas Bauer and Frank Winkler: Local blood coagulation drives cancer cell arrest and brain metastasis in a mouse model
Blood 2020, DOI: 10.1182/blood.2020005710

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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