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Single-lesion biopsy may be insufficient to choose therapy targeting resistance mutations

Press releases may be edited for formatting or style | February 05, 2016
February 5, 2016, Massachusetts General Hospital -- When metastatic tumors driven by drug-targetable genetic mutations become resistant to a targeted therapy drug, the usual practice is to biopsy a single metastatic lesion to test for new mutations that can guide the selection of next-line therapies. Investigators at Massachusetts General Hospital (MGH) Cancer Center and the University of Torino in Italy have found that this strategy may miss additional targetable mutations that arise in different metastases. In the February issue of Cancer Discovery, the researchers report that analyzing tumor DNA fragments in the bloodstream may give a more complete picture of the molecular basis of a patient's cancer.

"We found that the molecular mechanism of resistance that emerges in one metastatic lesion while on a given therapy can be totally different from the mechanism driving resistance in a neighboring lesion in the same patient," says Ryan Corcoran, MD, PhD, translational research director for the Center for Gastrointestinal Cancers at the MGH Cancer Center, co-corresponding author of the report. "Our conclusion is that the standard practice of performing molecular testing on a biopsy from a single metastatic lesion may be inadequate and that circulating tumor DNA testing may better capture the molecular diversity in a patient's tumor, enhancing our ability to select effective therapies to overcome resistance."

The authors report the case of a patient with colorectal cancer metastatic to the liver, who responded to an EGFR antibody drug - cetuximab (Erbitux) - for 15 months. When the patient's disease became resistant to therapy, a biopsy of a single liver metastasis was performed to analyze for new, resistance-conferring mutations. The specimen was found to have an MEK1 mutation that had not been present before cetuximab treatment, and the authors demonstrated that MEK1 mutation could drive resistance to EGFR antibodies in laboratory models of colorectal cancer. Based on those findings, the patient was treated with a combination of the MEK inhibitor trametinib (Mekinist) and another EGFR antibody panitumumab (Vectibix) - a combination that had been effective in a cellular model of cetuximab-resistant tumor cells with the same mutation.

While the patient initially appeared to respond to combination therapy, an abdominal CT scan three months later revealed that, while the MEK1-mutated liver lesion was smaller, additional metastatic lesions had continued growing. Blood samples had been taken from the patient before and during the combination therapy, and analysis of circulating tumor DNA by a team led by co-corresponding author Alberto Bardelli, PhD, of the University of Torino Department of Oncology revealed that, in addition to the MEK1 mutation, a previously undetected KRAS mutation was also present in blood samples taken at the start of treatment. During combination therapy, levels of the MEK1 mutation detectable in blood declined, but levels of the KRAS mutation rose dramatically.

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