Carcinogen-exposed Cells Provide Clues in Fighting Treatment-resistant Cancers (Medicine)

Key Takeaways

  • This study explores for the first time how the mutation-independent effect of environmental carcinogens leads to the recruitment of CD8+ T cells, the dominant antitumor cell type.
  • Research raises the possibility of an injection of a chemokine known as CCL21 into a tumor to induce an antitumor response through CD8+ T cells.

“We showed how cells exposed to certain carcinogens become immunogenic, that is, become targets for the immune attack, and how that exposure might be exploited to treat such major forms of cancer as breast and other epithelial cancers.”

— Shadmehr (Shawn) Demehri, MD, PhD
Center for Cancer Immunology and Cutaneous Biology Research Center, Massachusetts General Hospital

Researchers from Massachusetts General Hospital (MGH) have discovered a biological mechanism that transforms cells exposed to carcinogens from environmental factors like smoking and ultraviolet light into immunogenic cells that can be harnessed therapeutically to fight treatment-resistant cancers. As reported in Science Advances, that mechanism involves spurring the release  of small proteins known as chemokines which, in turn, recruit antitumor immune cells (CD8+ T cells) to the tumor site to block metastasis, potentially enhancing the effectiveness of a new generation of immunotherapies.

“Immunotherapeutics have shown tremendous promise in recent years, but the fact is their response rate for many types of cancers is very low,” says senior author Shadmehr (Shawn) Demehri, MD, PhD, an investigator in the Center for Cancer Immunology and the Cutaneous Biology Research Center at MGH. “We showed how cells exposed to certain carcinogens become immunogenic, that is, become targets for the immune attack, and how that exposure might be exploited to treat such major forms of cancer as breast and other epithelial cancers.”

CD8+ T cells are known to effectively attack the cells exposed to environmental carcinogens. But in the past, science has focused mainly on the mutations caused by these exposures in a patient’s heritable DNA as the reason for the immune attack. In their laboratory work with mice, the MGH team demonstrated for the first time another consequence of carcinogen exposure that can have significant immunologic implications, namely, the nongenetic alteration of cells through such harmful environmental factors as smoking, ultraviolet light and pollution.

“This finding is particularly important because it could open the door to therapeutic interventions that aren’t practical with a DNA approach, since no clinician wants to introduce even more genetic mutations into cancer cells just to make them more immunogenic,” explains Demehri. “We learned if there was another immunogenic element associated with carcinogen exposure independent of or even complementary to the presence of the mutation, then you could deliver that factor into a ‘cold’ tumor to make it ‘hot,’ meaning it would become immunogenic and responsive to immunotherapies.”

That factor is a chemokine known as CCL21, which MGH researchers found to be expressed in breast cancer cells in mice that were exposed to DMBA, a carcinogen similar to that found in cigarette smoke. “Through its signaling, CCL21 recruits CD8+ T cells which infiltrate the tumor, as previous work has shown, and are associated with a significant reduction in relative risk of distant metastasis,” says lead author Kaiwen Li, MD, an investigator in MGH’s Center for Cancer Immunology, MGH’s Cutaneous Biology Research Center and the Department of Urology at Sun Yat-sen Memorial Hospital at China’s Sun Yat-sen University. “Not only does CCL21 induce an antitumor immune response to prevent metastasis, but it overcomes other immune cells known as Tregs (immunosuppressive regulatory T cells) present in tumors from inhibiting the work of the CD8+ T cells.”

As an example of how this unique mechanism could be used therapeutically, the MGH team reported that an injection of CCL21 into the tumor might be able to transform cold breast cancers into hot tumors responsive to current immunotherapies.

“We hope that researchers will use these findings to open a much wider field of investigation into cancer immunology,” emphasizes Demehri. “Specifically, studies are needed to identify the full array of cytokines and chemokines that are induced by environmental carcinogens in various types of cancers with the goal of harnessing the most potent mediators of antitumor immunity.”

Demehri is an associate professor in the Department of Dermatology at Harvard Medical School and director of the High Risk Skin Cancer Clinic at MGH. Li is an associate professor in the Department of Urology at Sun Yat-sen Memorial Hospital. Other co-authors include Tiancheng Li, MD, Zhaoyi Feng, MD, and Mei Huang, PhD, with the Center for Cancer Immunology and the Cutaneous Biology Research Center at MGH.

The research was supported by the Breast Cancer Research Foundation, the Burroughs Wellcome Fund, the Breast Cancer Alliance, the Sidney Kimmel Foundation, the Cancer Research Institute and the National Institutes of Health.

The study, “CD8+ T cell immunity blocks the metastasis of carcinogen-exposed breast cancer”, Published in Science Advances  18 Jun 2021: Vol. 7, no. 25, eabd8936 DOI: 10.1126/sciadv.abd8936

Featured image: New research explores how the mutation-independent effect of environmental carcinogens leads to the recruitment of CD8+ T cells, the dominant antitumor cell type. Here, T cells (red and green) attack carcinogen-exposed breast cancer cells (light blue). Credit: Mei Huang, PhD


Provided by Massachusetts General Hospital

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