PITTSBURGH, April 1, 2019 – New research from the University of Pittsburgh School of Medicine and the UPMC Hillman Cancer Center sheds light on how tumors use the body’s regulators of immunity for their own benefit. Published today in Nature Immunology, the findings could be used to develop the next generation of immune therapies to fight various cancers.
“While cancer immunotherapy drugs that block inhibitory cell surface molecules like PD1 have revolutionized cancer care, only about 20 percent of patients clear their tumors,” said senior author Dario Vignali, Ph.D., who holds the Frank Dixon Chair in Cancer Immunology, and is professor and vice chair of immunology at Pitt’s School of Medicine. “Our findings uncovered a previously unknown biological mechanism that reveals new therapeutic approaches to promote anti-tumor immunity.”
Vignali and his team focused on a group of immune cells called regulatory T cells (Tregs), which help maintain a delicate balance in the immune system. They do so by tamping down immune responses, keeping the system sensitive enough to catch threats, but not so sensitive that they result in autoimmunity – attacking normal cells. To achieve this control, Tregs release small proteins called cytokines that can have different effects on cells.
Previous research, including findings from Vignali’s lab, had shown that tumors cleverly take advantage of Tregs inside the tumor’s microenvironment to turn off killer T cells and evade the body’s immune defenses.
In the current study, first authors Deepali Sawant, Ph.D., a former post-doctoral fellow, and Hiroshi Yano, a current graduate student in Vignali’s lab, along with the rest of the team, set about trying to shed light on how Tregs turned off killer T cells using two inhibitory cytokines called interleukin-10 (IL-10) and interleukin-35 (IL-35).
Their first finding, in mouse and human tumors, was that populations of Tregs could either make IL-10 or IL-35 but, surprisingly, not both at the same time. “This was unexpected because we had anticipated that activated Tregs would use all tools available to them to suppress immune responses. Instead it seems they have to make a choice to secrete only one inhibitory cytokine,” noted Vignali, who also is co-leader of the Cancer Immunology and Immunotherapy Program at the UPMC Hillman Cancer Center.
The team then used a mouse model of cancer to show that for tumors to effectively suppress the immune system, they needed both types of Treg cells – those that secrete IL-10 and those that secrete IL-35.
“It’s like making a latte; you need both coffee and milk,” explained Vignali. “Without both, you won’t have a latte!”
Investigating further, they found that the cytokines, acting together, activated a protein called BLIMP1, which effectively disabled killer T cells by making them express a large variety of inhibitory cell surface molecules, such as PD1, LAG3, TIM3 and TIGIT, that suppresses their ability to detect and kill cancer cells.
This finding is important, says Vignali, because many current clinical trials are focused on immunotherapies that block just one or two such inhibitory proteins that would, in turn, activate killer T cells. But developing drugs that block IL-10 or IL-35 could have a much greater effect by preventing the expression of many inhibitory proteins at once.
The authors also note that since drugs targeting Tregs are already being tested in clinical trials, finding the precise mechanisms by which they work could provide clues to making more effective drugs, or help design better combinations with currently available immunotherapies to improve treatment success.
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A complete listing of all the study authors can be found in the online article.
The study was funded by National Institutes of Health grants R01 CA203689, P01 AI108545, P30 CA047904 and S10 OD011925, and by Tizona Therapeutics. Vignali and study co-author Creg Workman, Ph.D., of Pitt, have submitted patents covering IL-35.
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About the University of Pittsburgh School of Medicine
As one of the nation’s leading academic centers for biomedical research, the University of Pittsburgh School of Medicine integrates advanced technology with basic science across a broad range of disciplines in a continuous quest to harness the power of new knowledge and improve the human condition. Driven mainly by the School of Medicine and its affiliates, Pitt has ranked among the top 10 recipients of funding from the National Institutes of Health since 1998. In rankings recently released by the National Science Foundation, Pitt ranked fifth among all American universities in total federal science and engineering research and development support.
Likewise, the School of Medicine is equally committed to advancing the quality and strength of its medical and graduate education programs, for which it is recognized as an innovative leader, and to training highly skilled, compassionate clinicians and creative scientists well-equipped to engage in world-class research. The School of Medicine is the academic partner of UPMC, which has collaborated with the University to raise the standard of medical excellence in Pittsburgh and to position health care as a driving force behind the region’s economy. For more information about the School of Medicine, see http://www.
About UPMC Hillman Cancer Center
UPMC Hillman Cancer Center, the region’s only National Cancer Institute-designated Comprehensive Cancer Center, is one of the largest integrated community cancer networks in the United States. Backed by the collective strength of UPMC and the University of Pittsburgh School of Medicine, UPMC Hillman Cancer Center has more than 60 locations throughout Pennsylvania and Ohio with cancer centers and partnerships internationally. Consistently ranked by U.S. News & World Report for excellence in cancer care, the more than 2,000 physicians, researchers and staff are leaders in molecular and cellular cancer biology, cancer immunology, cancer virology, biobehavioral oncology, and cancer epidemiology, prevention, and therapeutics. UPMC Hillman Cancer Center is transforming cancer research, care, and prevention — one patient at a time.
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