News Release

Two-drug combination may boost immunotherapy responses in lung cancer patients

Peer-Reviewed Publication

Johns Hopkins Medicine

Lung Cancer

image: Combination therapy attracts immune cells to fight tumors and blocks cancer gene MYC Johns Hopkins Kimmel Cancer Center researchers and colleagues have identified a novel drug combination therapy that could prime nonsmall cell lung cancers to respond better to immunotherapy. These so-called epigenetic therapy drugs, used together, achieved robust anti-tumor responses in human cancer cell lines and mice. view more 

Credit: Credit: Michael Topper and Michelle Vaz

Johns Hopkins Kimmel Cancer Center researchers and colleagues have identified a novel drug combination therapy that could prime nonsmall cell lung cancers to respond better to immunotherapy. These so-called epigenetic therapy drugs, used together, achieved robust anti-tumor responses in human cancer cell lines and mice.

During the study, published Nov. 30, 2017, in the journal Cell, a team of researchers led by graduate student Michael Topper; research associate Michelle Vaz, Ph.D.; and senior author Stephen B. Baylin, M.D., combined a demethylating drug called 5-azacytidine that chemically reignites some cancer suppressor genes' ability to operate, with one of three histone deacetylase inhibitor drugs (HDACis). The HDACis work against proteins called histone deacetylases that are involved in processes, such as cell copying and division, and can contribute to cancer development. The combination therapy triggered a chemical cascade that increased the attraction of immune cells to fight tumors and diminished the work of the cancer gene MYC. Based on these findings, investigators have launched a clinical trial of the combination therapy in patients with advanced, nonsmall cell lung cancer.

The development of therapeutic approaches for patients with lung cancer has been a critical medical need, says Baylin, the Virginia and Daniel K. Ludwig Professor of Cancer Research at the Kimmel Cancer Center. While immune checkpoint therapy has been "a tremendous step forward, less than half of patients with lung cancer have benefited to date," he says.

"In our study, the two-drug epigenetic therapy combination worked exceedingly well, even before putting in the immune checkpoint inhibitors," Baylin says. "In animal models of lung cancer, the two agents either prevented cancer from emerging or blunted the effects of more aggressive cancers. In both scenarios, a large component of the results involved an increase in immune recognition of the tumors."

In a series of experiments, researchers studied the combination of 5-azacytidine with the HDACis entinostat, mocetinostat or givinostat in human cancer cell lines and in mouse models of nonsmall cell lung cancers. The treatments were found to alter the tumor microenvironment. In cancer cell lines, 5-azacytidine worked against the cancer gene MYC, causing down regulation of the entire MYC signaling program. Adding the HDACis further depleted MYC, and together the drugs subsequently caused actions that prevented cancer cell proliferation, simultaneously attracted more immune system T cells to the area of the tumor and activated these cells for tumor recognition.

In mouse models, the strongest response was observed when using 5-azacytidine plus givinostat. In one mouse model with a mutant form of nonsmall cell lung cancer, this drug combination given for three months yielded prevention of benign, precursor tumors from becoming cancers and caused 60 percent reduction of overall area of benign tumor appearance in the lungs. By contrast, a group of mice with the same form of lung cancer that were given a mock treatment universally developed large, cancerous lesions in the lungs.

In a second model of mice with established, aggressive, nonsmall cell lung cancer, treatment with an alternating schedule of 5-azacytidine with givinostat and of 5-azacytidine with mocetinostat not only reduced the growth of established, rapidly growing primary tumors but also dramatically reduced metastatic occurrence.

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Baylin and colleagues at Memorial Sloan Kettering Cancer Center in New York and Fox Chase Cancer Center in Philadelphia have started a phase I/Ib clinical trial to evaluate if giving mocetinostat with a 5-azacytidinelike drug called guadecitabine can boost immune checkpoint therapy responses in patients with advanced, nonsmall cell lung cancers. The trial is part of the Van Andel Research Institute-Stand Up To Cancer Epigenetics Dream Team and is funded by Merck through the Stand Up To Cancer (SU2C) Catalyst program, an initiative led by SU2C to bring innovative cancer treatments to patients quickly. Matthew Hellmann, M.D., an author on the paper, will lead this trial at Memorial Sloan Kettering, and Jarushka Naidoo, M.B.B.Ch., assistant professor of oncology, will lead at Johns Hopkins. For more information, click here.

In addition to Topper, Vaz and Baylin, other scientists contributing to the Cell paper include Michael J. Christina DeStefano Shields, Noushin Niknafs, Ray-Whay Chiu Yen, Alyssa Wenzel, Jessica Hicks, Matthew Ballew, Meredith Stone, Phuoc T. Tran, Cynthia A. Zahnow, Valsamo Anagnostou and Victor E. Velculescu of Johns Hopkins; Katherine B. Chiappinelli of the George Washington University Cancer Center; Matthew D. Hellmann of Memorial Sloan Kettering Cancer Center; and Pamela L. Strissel and Reiner Strick of the University-Clinic Erlangen in Germany.

The work was supported by grants from the Hodson Trust, the Dr. Miriam and Sheldon G. Adelson Medical Research Foundation, Stand Up To Cancer's Jim Toth Sr. Breakthrough Lung Cancer Research Award, the Commonwealth Foundation for Cancer Research and the Samuel Waxman Cancer Research Foundation Collaboration for a Cure. It also was supported by National Institutes of Health grants (CA12113, CA006973, CA180950) and the Van Andel Research Institute-Stand Up To Cancer Epigenetics Dream Team.


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