Treatment Strategy For Patients With Resistant Lung Tumors
Main Category: Lung CancerAlso Included In: Genetics
Article Date: 02 May 2007 - 5:00 PDT
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An international research team, led by investigators from the Massachusetts General Hospital (MGH) Cancer Center and Dana-Farber Cancer Institute (DFCI), has found a new way that some lung tumors become resistant to treatment with targeted therapy drugs like Iressa and Tarceva. Their report, which will appear in the journal Science and is receiving early online release, describes a totally new resistance mechanism that may apply to many types of cancer. It also suggests a treatment strategy for patients with these resistant tumors.
"We found that, for about 20 percent of patients with tumors that become resistant to Tarceva or Iressa, resistance is caused by the genetic activation of an oncogene that is not the normal target of the drug, which is something that has never been seen before," says Jeffrey Engelman, MD, PhD, scientific director of the MGH Center for Thoracic Cancers, the paper's lead author.
"Importantly, we also identified a potential new way to treat these resistant tumors with combination therapy directed against both protein targets," adds Pasi A. Jänne, MD, PhD, of the Lowe Center for Thoracic Oncology at DFCI, the study's senior author.
Drugs like Iressa (gefitinib) and Tarceva (erlotinib) are used to treat advanced non-small-cell lung cancer (NSCLC), the leading cause of cancer deaths in the U.S. They act by blocking the epidermal growth factor receptor (EGFR), a molecule on the surface of cancer cells. In 2004 research teams from MGH and DFCI found that only tumors in which the EGFR gene has been mutated in a way that magnifies the cells' response to the growth factor, a process that fuels tumor growth, were sensitive to treatment with these drugs.
Although tumors that respond to EGFR inhibitors do so rapidly and dramatically, eventually the tumors become resistant and resume growing. About half the time, a secondary mutation that interferes with the drugs' binding to the receptor develops within the EGFR gene. A new group of so-called irreversible EGFR inhibitors that permanently bind to the protein are currently being tested in clinical trials. But what leads to other cases of resistance has been unknown, and the current study was designed to discover additional mechanisms.
To do so, the investigators modeled in a laboratory setting what happens in lung cancer patients; they used a line of NSCLC cells with the sensitizing EGFR mutation and created a cell line resistant to treatment with Iressa. In a number of experiments comparing the resistant line with still-sensitive cells, they focused on the cell signalling pathway controlled by EGFR. In earlier research, Engelman and colleagues had found that the growth signal that starts with EGFR works through a related protein called ERBB3.
"This method of reactivating the EGFR signalling pathway with MET may be a common resistance mechanism in other therapies that target receptors of the ERBB family, which are used against breast cancer, colon cancer, head and neck cancer, and the brain tumor glioblastoma multiforme," says Jänne, who is an assistant professor of Medicine at Harvard Medical School (HMS). Engelman is an HMS instructor of Medicine.
"Our results suggest that, when patients' tumors become resistant, repeat biopsies to identify which resistance mechanism is involved will be critical and could help us develop effective therapies for those resistant tumors," adds co-author Lewis Cantley, PhD, of the Beth Israel Deaconess Medical Center.
To that end, the investigators are working on a research protocol for combined treatment with FDA-approved EGFR inhibitors and with MET inhibitors, which are in preapproval trials against other types of cancer. They also plan to analyze a larger number of resistant samples to get a clearer idea of the frequency of this resistance mechanism.
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Additional co-authors of the Science report are Kreshnik Zejnullahu, Joon Oh Park, MD, PhD, Xiaojun Zhao, PhD, Alison Holmes, Andrew Rogers and Bruce Johnson, MD, of Dana-Farber; Tetsuya Mitsudomi, MD, and Takayuki Kosaka, MD, Aichi Cancer Center Hospital, Nagoya, Japan; Youngchul Song and Christopher-Michael Gale; Courtney Hyland, Neal Lindeman, MD, and Charles Lee, PhD, Brigham and Women's Hospital; James Christensen, PhD, Pfizer Global Research and Development; Federico Cappuzzo, MD, Instituto Clinico Humanitas, Rozzano, Italy; and Tony Mok, MD, Chinese University of Hong Kong. The study was supported by grants from the National Institutes of Health, including the National Cancer Institute; the American Cancer Society, the American Association for Cancer Research; the International Association for the Study of Lung Cancer; and the Italian Association for Cancer Research.
Massachusetts General Hospital (http://www.massgeneral.org/), established in 1811, is the original and largest teaching hospital of Harvard Medical School. The MGH conducts the largest hospital-based research program in the United States, with an annual research budget of nearly $500 million and major research centers in AIDS, cardiovascular research, cancer, computational and integrative biology, cutaneous biology, human genetics, medical imaging, neurodegenerative disorders, regenerative medicine, transplantation biology and photomedicine.
Dana-Farber Cancer Institute (http://www.dana-farber.org/) is a principal teaching affiliate of the Harvard Medical School and is among the leading cancer research and care centers in the United States. It is a founding member of the Dana-Farber/Harvard Cancer Center (DF/HCC), a designated comprehensive cancer center by the National Cancer Institute.
Contact: Sue McGreevey
Massachusetts General Hospital
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Chemotherapy Resistance Testing In Lung Cancer Patients
posted by Gregory D. Pawelski on 13 Jun 2007 at 10:51 pmA study led by a lung cancer surgeon at Jefferson Medical College suggests that oncologists should take more advantage of laboratory tests that have the potential to help determine a lung cancer patient's resistance to chemotherapy drugs. All too often, patients with non-small-cell lung cancer (NSCLC) are given standard chemotherapy drugs after surgery in a "hit or miss" fashion, without doctors knowing which drugs might have better chances than others to help treat the tumor. Steps should be taken to validate such resistance tests in clinical trials.
Reporting recently in the Journal of Thoracic and Cardiovascular Surgery, Thomas d'Amato, M.D., Ph.D., assistant professor of surgery at Jefferson Medical College of Thomas Jefferson University in Philadelphia, and his colleagues analyzed data on 4,571 non-small cell lung cancer tumors' resistance to four pairs of chemotherapy agents, each of which included a standard platinum-based drug: carboplatin and paclitaxel (taxol), cisplatin and navelbine, cisplatin and docetaxel and cisplatin and gemcitabine.
Using the "extreme drug resistance" test to monitor cancer resistance in a test tube, they found resistance in 30 percent of tumors to carboplatin-paclitaxel, 24 percent to cisplatin-navelbine, 42 percent to cisplatin-gemcitabine and 27 percent to cisplatin-docetaxel.
"Clinical unresponsiveness for most patients with lung cancer to standard chemotherapy may be explained and measured accurately with an assay that measures a specific patient's tumor resistance to a given cytotoxic drug," Dr. d'Amato says. "This assay has the potential to guide therapy and can be used to tailor a patient's therapy by avoiding chemotherapeutic agents that will likely be ineffective."
Lung cancer is the leading cause of cancer death around the world. According to the American Cancer Society, an estimated 213,380 new cases of lung cancer (both small cell and non-small cell) will occur this year in the United States. About 160,390 people will die of this disease.
Chemoresistance testing isn't new. Dr. d'Amato says that it has been applied successfully in ovarian and recurrent ovarian cancer and has helped many oncologists rule out chemotherapy agents because of toxicity and a low probability of clinical response. While the prevalence of drug resistance to common chemotherapy drugs in non-small cell lung cancer is alarmingly high, he says, the assay's usefulness in tailoring appropriate therapies that help patients has yet to be proven.
"I believe the resistance assay is terribly underused," he says. "Having this assay available for a number of years, it is surprising that it has not been integrated into any clinical trials. In this age of targeted agents, it is time to avoid empiric therapy if possible, particularly in cancer. We don't cure many with lung cancer with chemotherapy."
Dr. d'Amato's group also used the resistance assay to attempt to find markers - specific genes - that may be associated with resistance to chemotherapy, based on patient tumor resistance and individual gene expression profiles.
"In this era of empiric therapy, particularly with novel agents that are expensive, molecular testing needs to be paired to these studies," he says. "Clinical trial data is needed proving an agent's usefulness before clinical oncologists will use it."
[Thoracic Surgeon Thomas Andrew d'Amato, M.D., Ph.D. has joined the Department of Surgery at Thomas Jefferson University Hospital, Philadelphia. Dr. d'Amato has also been named Assistant Professor of Surgery, Jefferson Medical College of Thomas Jefferson University. He will focus his clinical practice on general thoracic and foregut surgery with a primary emphasis in thoracic oncology.]
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