MD Anderson scientists show why some brain cancer patients develop resistance to treatments

Scientists at The University of Texas MD Anderson Cancer Center may have discovered why some brain cancer patients develop resistance to standard treatments including radiation and the chemotherapy agent temozolomide.

Simply put, it's all in their DNA, and it could open up new avenues for treating certain kinds of brain cancer.

DNA, the body's essential storehouse for genetic information, can do marvelous things such as passing on hereditary strengths and playing a key role in virtually every bodily function. In the case of glioblastoma, the most common and aggressive type of glioma or brain cancer, it can also allow the disease to progress more quickly when it is "enhanced," allowing damaged or mutated cancer cells to repair themselves.

"A major obstacle to effective treatment is acquired resistance to treatment," said Wei Zhang, Ph.D., professor of Pathology. "Enhanced DNA repair can allow these cancer cells to survive, contributing to resistance and tumor recurrence. We have identified Aktr3 as having the ability to robustly stimulate glioma progression."

Akts are proteins known as kinases that regulate cell signaling. They're involved in many bodily processes such as cell growth, cell death and tumor growth. Akts are thought to contribute to the development and progression of many cancers including prostate, breast, liver, colorectal and others. One form of this protein, Akt3, appears to be especially prevalent in the brain.

Zhang's findings, which are published in the March 2 issue of the Proceedings of the National Academy of Sciences, describe his team's study results showing how Akt3 activates key DNA repair pathways.

In Zhang's research, he reveals that Akt3 is tied to DNA's "repair panel," somehow boosting activation of DNA repair proteins, leading to increased DNA repair, and subsequently to cancer treatment resistance.

"This activation led to enhanced survival of brain tumor cells following radiation or treatment with temozolomide," said Zhang. "Our work has potentially broad application to multiple cancer types in which Akt3 is expressed. Blocking this pathway may help prevent or alleviate therapeutic resistance resulting from enhanced DNA repair."

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