February 26, 2019

Blocking DNA repair restores sensitivity of brain tumors to treatment in mice

At a Glance

  • Researchers found that blocking DNA repair made gliomas, a type of deadly brain tumor, more responsive to radiation therapy in mice.
  • The findings suggest possible treatment strategies, but more studies are needed to see if the drugs would have the same effects in people.
Microscopic image of cancer cells Cancer cells that harbor the IDH1 disease mutation were taken from mouse tumors and grown in a petri dish. Castro lab, University of Michigan

Cancer is caused by cells that grow and divide uncontrollably. Gliomas are a deadly type of cancer that starts in brain cells called glial cells. Studies have shown that mutations in the isocitrate dehydrogenase 1 (IDH1) gene are an early event that helps drive many gliomas. These tumors also often develop mutations in genes called TP53 and ATRX.

Glioma patients whose tumors have mutations in IDH1 are typically younger and live longer than those whose tumors have the normal version. However, the vast majority of these gliomas still turn into more aggressive, dangerous glioblastomas over time.

To explore ways to treat gliomas with IDH1 mutations, a team led by Drs. Maria G. Castro and Pedro R. Lowenstein at the University of Michigan genetically engineered mice to grow brain cancer cells with the disease-causing mutations in IDH1 along with mutations in TP53 and ATRX. The research was supported primarily by NIH鈥檚 最新麻豆视频 Institute of Neurological Disorders and Stroke (NINDS), along with several other NIH components. Results were published on February 13, 2019, in Science Translational Medicine.

Like patients with the IDH1 mutation, genetically engineered mice with the mutation lived longer than mice whose tumors had normal IDH1 while harboring the mutations in TP53 and ATRX.

The researchers found that the聽IDH1 mutation made glioma cells less aggressive. The cells divided at a lower rate than those without the mutation and were much less likely to trigger tumor growth when implanted into mouse brains.

Further experiments showed that IDH1 mutations led to epigenetic changes鈥擠NA modifications that don鈥檛 change the DNA sequence itself. These changes increased the manufacture of proteins known to repair damaged DNA.

The IDH1-mutated tumors were resistant to ionizing radiation, a treatment that normally kills cells by damaging DNA. These results suggest that mutant IDH1 helps cells repair damaged DNA more efficiently. That may slow tumor growth but also make the tumors more resistant to radiation treatment.

The researchers found that they could extend the lives of mice with the mutant IDH1 tumors by exposing them to radiation while also injecting them with one of two compounds designed to block DNA repair. In contrast, treating these mice with either radiation or either of the drugs alone had no effect.

Several of the findings in mice were also seen in human gliomas grown in petri dishes. The researchers are now planning a Phase 1 clinical trial to test the safety and efficacy of the combination therapy strategy developed in this study.

鈥淓very year thousands of people are diagnosed with brain cancer and have little hope for long-term survival,鈥 Castro says. 鈥淥ur team鈥檚 mission is to find life-saving treatments聽for these patients. The results from this study could be a blueprint for extending, if not saving, the lives of many patients.鈥

Related Links

References:  N煤帽ez FJ, Mendez FM, Kadiyala P, Alghamri MS, Savelieff MG, Garcia-Fabiani MB, Haase S, Koschmann C, Calinescu AA, Kamran N, Saxena M, Patel R, Carney S, Guo MZ, Edwards M, Ljungman M, Qin T, Sartor MA, Tagett R, Venneti S, Brosnan-Cashman J, Meeker A, Gorbunova V, Zhao L, Kremer DM, Zhang L, Lyssiotis CA, Jones L, Herting CJ, Ross JL, Hambardzumyan D, Hervey-Jumper S, Figueroa ME, Lowenstein PR, Castro MG. Sci Transl Med. 2019 Feb 13;11(479). pii: eaaq1427. doi: 10.1126/scitranslmed.aaq1427. PMID: 30760578.

Funding: NIH鈥檚 最新麻豆视频 Institute of Neurological Disorders and Stroke (NINDS), 最新麻豆视频 Institute of Biomedical Imaging and Bioengineering (NIBIB), 最新麻豆视频 Cancer Institute (NCI), 最新麻豆视频 Institute of Diabetes and Digestive and Kidney Diseases (NIDDK), and 最新麻豆视频 Institute on Aging (NIA); Department of Neurosurgery and Leah鈥檚 Happy Hearts; Aflac Cancer and Blood Disorders Center; University of Michigan; the American Association for Cancer Research (AACR); and the Dabbiere family.