Defective DNA damage repair leads to chaos in the genome

November 12, 2018

Scientists at the German Cancer Research Center (Deutsches Krebsforschungszentrum, DKFZ) have now found a cause for the frequent catastrophic events in the genetic material of cancer cells that have only been known for a few years: If an important DNA repair system of the cells has failed, this promotes fragmentation and defective assembly of the genetic material. Cancer cells with such a repair defect can now possibly be treated by a specific group of drugs.

Only a few years ago, scientists at the German Cancer Research Center (DKFZ), among others, described a new damage pattern in the genetic material of cancer cells: In a particularly aggressive type of childhood brain tumors, they discovered an unprecedented chaos in the cell nucleus: Sections of individual chromosomes were broken at innumerable points and reassembled incorrectly, so that whole parts were missing, while others were duplicated or incorporated in a wrong orientation. This chromosome catastrophe differed from all previously known genetic defects in tumors.

Scientists use the term chromothripsis to describe such a genetic disaster, which occurs in about twenty to thirty percent of all cancers. The trigger for this has so far been largely unknown. Aurelie Ernst and her team at the German Cancer Research Center have now been able to show that the failure of certain genetic repair systems is one of the causes of chromosomal chaos.

Many environmental influences, such as UV rays, damage the DNA. Cells have an arsenal of mechanisms in place to repair such defects. What happens if one of these repair systems fails? Aurelie Ernst's team tested this on genetically modified mice. In these animals, the tools used by the cell to repair broken DNA double strands were genetically switched off - specifically only in the neural precursor cells.

These mice developed malignant brain tumors (medulloblastomas and high-grade gliomas), which exhibited chromothripsis at a high frequency. The researchers noticed that this is almost always accompanied by extra copies of the Myc oncogene, which is known to be a strong driver of cell growth. "If the DNA repair is defective and Myc nevertheless stimulates the division of these damaged cells, the risk of chaos in the genome is particularly high," explains the DKFZ researcher.

Does this connection between defective genome repair and chromosome chaos also apply to human cancers? Aurelie Ernst and her team can confirm this for brain tumors, melanomas and breast cancer. The researchers also found the involvement of the cancer-promoting Myc in human tumors.

"The chromosome chaos caused by repair defects is frightening at first sight," explains Aurelie Ernst. "However, there are ways to specifically combat cancer cells harboring such defects: We can use drugs to switch off additionally another important DNA repair system. This leads to so much genetic damage that the cell is unable to survive. Healthy cells, on the other hand, which have all their repair systems, don't mind these drugs."

PARP inhibitors are already approved drugs that block a central DNA repair system. It may also be possible to develop other substances that attach to other DNA repair enzymes. "If the analysis of a patient's tumor genome reveals evidence of chromothripsis, treatment with PARP inhibitors could be a new therapeutic option in the future," explains the DKFZ researcher Ernst. "Of course, this has to be confirmed in preclinical and clinical tests.
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Manasi Ratnaparkhe, John KL Wong, Pei-Chi Wei, Mario Hlevnjak, Thorsten Kolb, Milena Simovic, Daniel Haag, Yashna Paul, Frauke Devens, Paul Northcott, David TW Jones, Marcel Kool, Anna Jauch, Agata Pastorczak, Wojciech Mlynarski, Andrey Korshunov, Rajiv Kumar, Susanna M Downing, Stefan M Pfister, Marc Zapatka, Peter J McKinnon, Frederick W Alt, Peter Lichter, Aurélie Ernst: Defective DNA damage repair leads to frequent catastrophic genomic events in murine and human tumors.

Nature Communications 2018, DOI: 10.1038/s41467-018-06925-4

The German Cancer Research Center (Deutsches Krebsforschungszentrum, DKFZ) with its more than 3,000 employees is the largest biomedical research institute in Germany. At DKFZ, more than 1,000 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. The staff of the Cancer Information Service (KID) offers information about the widespread disease of cancer for patients, their families, and the general public. Jointly with Heidelberg University Hospital, DKFZ has established the National Center for Tumor Diseases (NCT) Heidelberg, where promising approaches from cancer research are translated into the clinic. In the German Consortium for Translational Cancer Research (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 is an important contribution to improving 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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