PHILADELPHIA – The protein peptidyl arginine deiminase 4 (PAD4), which enables some immune cells to trap bacteria, promoted breast cancer metastasis in mice when expressed in cancer cells, according to data published in Molecular Cancer Research, a journal of the American Association for Cancer Research.
“Breast cancer is a leading cause of cancer-related death among women. Patients with metastatic breast cancer have a high risk of death,” said Yanming Wang, PhD, professor at the Henan University in Kaifeng, China. “The purpose of our study was to understand cellular factors that may contribute to metastasis.”
Wang, a former graduate student Lai Shi, PhD, and their colleagues examined the role of PAD4, a protein that can modify DNA-compacting proteins called histones, thereby loosening DNA compaction. PAD4 is highly enriched in neutrophils, a type of immune cell, where its effect on DNA compaction leads to the formation of DNA and protein networks outside the cell called neutrophil extracellular traps (NETs). The normal role of NETs is to trap invading microbes, but studies have shown that NETs released by neutrophils can also facilitate cancer metastasis. Moreover, another study showed that high expression of PAD4 was sufficient to cause cells other than neutrophils to form similar structures.
“In addition to its high expression in neutrophils, PAD4 is highly expressed in malignant tumors of various cell types; however, the role of PAD4 in breast cancer cells has been elusive,” said Wang. “We were interested in learning if PAD4 expression in breast cancer cells could affect cancer biology, such as tumor growth and metastasis.”
To understand PAD4 expression levels in breast cancer cells, Wang and colleagues performed a meta-analysis of gene expression profiles from The Cancer Genome Atlas and the Oncomine database. Results from the meta-analysis showed that human breast cancer cells were more likely than normal cells to have increased PAD4 expression. Consistent with this finding, a mouse breast cancer cell line called 4T1 had higher PAD4 levels than cell lines from other cancer types.
Due to PAD4’s known roles in DNA compaction and NET formation, Wang and colleagues examined how PAD4 expression in breast cancer cells impacts the structure of DNA-protein networks known as chromatin. They found that activation of PAD4 in 4T1 cells led to the modification of histones and the release of chromatin fibers outside the cell. The released chromatin fibers formed NET-like structures, which the authors referred to as cancer extracellular chromatin networks (CECNs).
Further experiments demonstrated that PAD4 was required for the formation of CECNs, both in cell culture and in allograft tumors in mice. By comparing the growth and spread of allograft tumors that did or did not express PAD4, the authors observed that PAD4-expressing tumors grew significantly faster in mice and had significantly more metastases in the lungs, which are the usual site of 4T1 metastasis. Further experimentation revealed that PAD4 promoted the growth of metastatic tumors after cancer cells had reached the lungs.
“Together, our results demonstrate that PAD4 expression in breast cancer cells promotes CECN formation, primary tumor growth, and lung metastasis in mice,” said Wang. “The exact mechanism by which PAD4 exerts these effects is something we are actively investigating.” Understanding how PAD4 promotes tumor growth and metastasis could help researchers develop drugs to target this process, explained Wang.
“While further investigation is needed, it is interesting to consider the possibility that PAD4 or CECNs could potentially be used as biomarkers to predict disease progression. Furthermore, therapies to inhibit PAD4 or eliminate CECNs could be explored as a method to reduce the risk of metastasis in patients with breast cancer,” Wang added. Wang and colleagues are also interested in investigating if PAD4 contributes to progression or metastasis of other cancers.
A limitation of the study is that it was performed using a single cell line. Thus, studying additional cell types and human breast cancer samples will be needed to understand the prevalence of CECN formation and PAD4’s role in the process, Wang noted.
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This study was sponsored by funds from Henan University, The Pennsylvania State University, and the National Institutes of Health/National Cancer Institute. Wang declares no conflicts of interest.
About the American Association for Cancer Research
Founded in 1907, the American Association for Cancer Research (AACR) is the world’s first and largest professional organization dedicated to advancing cancer research and its mission to prevent and cure cancer. AACR membership includes 46,000 laboratory, translational, and clinical researchers; population scientists; other health care professionals; and patient advocates residing in 127 countries. The AACR marshals the full spectrum of expertise of the cancer community to accelerate progress in the prevention, biology, diagnosis, and treatment of cancer by annually convening more than 30 conferences and educational workshops, the largest of which is the AACR Annual Meeting with more than 22,500 attendees. In addition, the AACR publishes nine prestigious, peer-reviewed scientific journals and a magazine for cancer survivors, patients, and their caregivers. The AACR funds meritorious research directly as well as in cooperation with numerous cancer organizations. As the Scientific Partner of Stand Up To Cancer, the AACR provides expert peer review, grants administration, and scientific oversight of team science and individual investigator grants in cancer research that have the potential for near-term patient benefit. The AACR actively communicates with legislators and other policymakers about the value of cancer research and related biomedical science in saving lives from cancer. For more information about the AACR, visit //www.
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