Study Reveals New Role for Hippo Pathway in Suppressing Cancer Immunity
News Dec 07, 2016
Previous studies identified the Hippo pathway kinases LATS1/2 as a tumor suppressor, but new research led by University of California San Diego School of Medicine scientists reveals a surprising role for these enzymes in subduing cancer immunity. The findings, published in Cell on December, could have a clinical role in improving efficiency of immunotherapy drugs. “Before our study, no one knew that the Hippo pathway was regulating immunogenicity,” said first author Toshiro Moroishi, MD, PhD, postdoctoral researcher at UC San Diego Moores Cancer Center. “LATS1/2 deletion in cancer cells improves tumor immunogenicity, leading to the destruction of cancerous cells by enhancing anti-tumor immune responses.”
Hippo pathway signaling regulates organ size by moderating cell growth, apoptosis and stem cell renewal, but dysregulation contributes to cancer development. In vitro studies of Hippo pathway kinases LATS1/2 showed that the loss of these enzymes promoted cell proliferation and tumor survival. In vivo research using immune-compromised mouse models also supports a tumor suppressor function of the Hippo pathway. However, when Moroishi and team deleted LATS1/2 from mouse cancer cells and examined tumor growth in models with healthy immune systems researchers found that immunogenicity — the ability to stimulate an immune response — improved, destroying cancer cells.
Researchers caution that immune systems of mouse models are different from the human immune system so the response might be different and further studies are needed. If the outcome proves to be the same, using a LATS1/2 inhibitor alone or in combination with an immune checkpoint inhibitor may stimulate the immune system of patients that previously did not respond to immunotherapy treatments. Currently, most immunotherapy research focuses on targeting the immune system, but the new findings reveal that tumor cells may also be vulnerable to inhibitors.
“Inhibiting LATS1/2 could be an attractive approach to treat cancer,” said Kun-Liang Guan, PhD, Distinguished Professor of Pharmacology at Moores Cancer Center and senior author of the study. “LATS is an ideal target because there are many kinase inhibitors that have been successfully developed as cancer drugs.” This study focused on breast cancer, melanoma and squamous cell carcinoma but the same could be applied to other cancers, said Moroishi.
Study co-authors include: Tomoko Hayashi, Yu Fujita, Dennis A. Carson, UC San Diego; Wei-Wei Pan, UC San Diego and Jiaxing University; Matthew V. Holt, and Jun Qin, Baylor College of Medicine. This research was funded, in part, by National Institutes of Health (EY22611, CA196878, GM51586, HHSN272201400051C) and the Whitworth Immunotherapy Foundation.
Source: Story from University of California San Diego. Please note: The content above may have been edited to ensure it is in keeping with Technology Networks' style and length guidelines.
Reference: Moroishi, T., Hayashi, T., Pan, W., Fujita, Y., Holt, M., Qin, J., . . . Guan, K. (2016). The Hippo Pathway Kinases LATS1/2 Suppress Cancer Immunity. Cell, 167(6). doi:10.1016/j.cell.2016.11.005
Targeting Epigenetic Proteins to Prevent Breast CancerNews
Researchers have discovered that epigenetic proteins promote the proliferation of mammary gland stem cells in response to the sex hormone progesterone. The study suggests that inhibiting these proteins with drugs could prevent the development of breast cancer in women at high risk of the disease.READ MORE
Cell Technology Used to Treat Osteochondral Knee DefectNews
Autologous cells of stromal vascular fraction were transplanted to a 36-year-old man with the use of fibrin matrix.READ MORE