Combination immunotherapy improves survival in mouse models of mesothelioma

April 02, 2018

Combined treatment with two cancer immunotherapy drugs - one a novel immune modulator and one that focuses and activates the antitumor immune response - significantly prolonged survival in mouse models of the aggressive cancer malignant mesothelioma. In their report published in Cancer Immunology Research, a team from the Vaccine and Immunotherapy Center (VIC) at Massachusetts General Hospital (MGH) describes how adding AMD3100 (plerixafor) - previously approved for the stimulation of stem cell production prior to bone marrow transplantation - to their investigational drug VIC-008 more than doubled the animals' survival time. Among the mechanisms identified as underlying the combination treatment's effects was changing a population of immunosuppressive T cells into a type that could enhance an antitumor immune response.

"Mesothelioma, a tumor that is caused by asbestos exposure, has been extremely hard to treat; and patients usually survive only 12 to 18 month after diagnosis," says Mark Poznansky, MD, PhD, director of the MGH-VIC and senior author of the report. "Since the advent of cancer immunotherapy, people have tried to apply immunotherapeutic drugs to mesothelioma with limited success. We are very excited at the prospect that this drug combination may be much more effective in prolonging patients' lives."

The study is the result of a collaboration between Poznansky and Jeffrey Gelfand, MD, an MGH-VIC investigator who had developed VIC-008 - also called Jantibody, in memory of Gelfand's wife Janet who succumbed to ovarian cancer - as a potential treatment for ovarian cancer. VIC-008 is a fusion protein combining an immune-activating protein from the tuberculosis bacteria with a small antibody fragment targeting mesothelin, a protein expressed in several types of tumor - including mesothelioma, pancreatic and ovarian cancer. While previous research had shown some effectiveness of this molecule in a mouse model of ovarian cancer, that benefit was limited by the immunosuppressive environment within tumors, particularly the presence of regulatory T cells (Tregs). The current combination appears to overcome this limitation.

Poznansky's team - with lead scientist Huabiao Chen, PhD, corresponding author of the current report - had been investigating applications of AMD3100, a drug that blocks the CXCR4/CXCR12 signaling pathway known to be involved in cancer development and in the way in which mesothelioma evades the immune system. While research has supported AMD3100's ability to inhibit tumor growth and metastasis, the mechanism behind its effects on mesothelioma had not been determined. Since expression of CXCR4 and CXCR12 are increased as mesothelioma progresses, VIC researchers investigated the potential of combining AMD3100 with VIC-008 to treat these tumors.

Their series of experiment in two different mesothelioma mouse models found the following: "The apparent ability to change immunosuppressive T cells within the tumor into T cell types that are more active and potentially helpful against cancer was a really exciting finding, and one that we're continuing to investigate," says Poznansky, who is an associate professor of Medicine at Harvard Medical School (HMS).

Chen adds, "We believe that we can find an approach that combines Jantibody and AMD3100 to regroup and redirect immune responses in order to combat cancer." He is an instructor in Medicine at HMS.

Gelfand, a senior scientist at VIC and professor (part-time) at HMS, says, "AMD3100 is already an FDA-approved drug, whose use and application the MGH VIC is hoping to extend in various cancers. Jantibody focuses the AMD3100-invigorated immune response on critical tumor structures, markedly enhancing tumor control. We hope these data will help to move Jantibody closer to human tumor therapy, fulfilling one of my wife's last wishes."
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The co-lead authors of the Cancer Immunology Research paper are Binghao Li and Yang Zeng, MD, PhD, of the MGH Vaccine and Immunotherapy Center. Along with Chen and Gelfand, additional co-authors are Patrick Reeves, PhD, Qiuyan Liu, Xiying Qu, PhD, Yingying Liang, Zhao Liu, Jianping Yuan, Pierre Leblanc, PhD, Ann Sluder, PhD, and Timothy Brauns, MBA, MGH VIC; Chongzhao Ran, PhD, Martinos Center for Biomedical Imaging at MGH; and Zhaoming Ye, MD, PhD, Zhejiang University School of Medicine, Hangzhou, China.

Support for the study includes Department of Defense Congressionally Directed Medical Research Programs grant W81XWH-14-1-0206, the VIC Mesothelioma Research and Resources Program, VIC Innovation Fund, and the Edmund C. Lynch, Jr. Cancer Fund. The MGH has received patents for the use of Jantibody (VIC008) and has filed a patent application for combined AMD3100/VIC-008 treatment for mesothelioma and several other cancers. The patents have been licensed to the startup company AperiSys, Inc.

Massachusetts General Hospital, founded in 1811, is the original and largest teaching hospital of Harvard Medical School. The MGH Research Institute conducts the largest hospital-based research program in the nation, with an annual research budget of more than $900 million and major research centers in HIV/AIDS, cardiovascular research, cancer, computational and integrative biology, cutaneous biology, genomic medicine, medical imaging, neurodegenerative disorders, regenerative medicine, reproductive biology, systems biology, photomedicine and transplantation biology. The MGH topped the 2015 Nature Index list of health care organizations publishing in leading scientific journals and earned the prestigious 2015 Foster G. McGaw Prize for Excellence in Community Service. In August 2017 the MGH was once again named to the Honor Roll in the U.S. News & World Report list of "America's Best Hospitals."

Massachusetts General Hospital

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