Jonathan D. Schoenfeld, MD
There may be potential synergy between radiation therapy, given with or without chemotherapy, and immune checkpoint inhibitors in patients with squamous cell carcinoma of the head and neck (SCCHN), according to results of a prospective study.
The study, which was presented at the the 2016 Multidisciplinary Head and Neck Cancer Symposium in February 2016, examined blood samples from 16 consecutive patients with SCCHN undergoing curative-intent radiation therapies.
Samples were obtained at week 1 and week 6 to 7. Patients received a median of 70 Gy for disease in the oropharynx (n = 12, 75%), nasopharynx (n = 2, 12%), larynx (n = 1, 6%), or oral cavity (n = 1, 6%). The majority of patients had stage IV disease that was metastatic to regional lymph nodes and received concurrent platinum-based chemotherapy.
The analysis found that, during radiation treatment, circulating CD8-positive T-effector cells increased (P = .01), as did CD4-positive PD-1–positive cells (P
= .02), CD8-positive LAG3-positive cells (P
= .02), and regulatory T cells (P
= .04). sPD-L1 levels also increased, mirroring increases in CD8-positive T cells over the course of therapy (P
While the extent to which these systemic changes reflect changes in the tumor microenvironment is unknown, the study authors noted that these findings support the “complex immunologic effects of fractionated chemoradiation therapy and mechanisms for potential synergy between chemotherapy, radiation treatment, and immunotherapy in SCCHN.”
To learn more about the impact of the research, OncLive
spoke to one of the study’s authors, Jonathan D. Schoenfeld, MD, physician, assistant professor of Radiation Oncology, Harvard Medical School, Dana-Farber Cancer Institute, who presented the findings at the meeting.
OncLive: What were the goals of this study?
: Immunotherapy, particularly immune checkpoint blockade, is demonstrating some exciting results in head and neck cancer. Largely, that work has been done in metastatic head and neck cancer. Our goal was to look at the immunologic effects of a treatment that is commonly given to patients with early-stage head and neck cancer: chemotherapy and radiation.
We found that the combination of chemotherapy and radiation—and in some cases, just radiation alone—led to immune effects that we could see not just in the site where we were radiating, but also if we looked at markers in the peripheral blood.
One of the interesting things that we found was that radiation, with or without chemotherapy, has the potential to increase the number of tumor antigens that were targeted by the host immune response. One of the ways that we hope to use radiation in the future is to stimulate an initial immune response.
Based on the data that is emerging with PD-1 inhibitors, we know that the majority of patients will not respond to these agents. We need to determine if we can use radiation and chemotherapy to increase the number of responders initially that can then be stimulated even further with immune checkpoint blockade.
What immune effects were investigated?
We looked at a variety of effects. We looked at chemokines, which are cytokines that could mediate effects outside of the radiation treatment field. We looked at circulating T cells, including CD8-positive T cells, CD4-positve T cells, and markers of activated T cells.
We also looked at potentially inhibitory T cells as well, including T-regulatory cells, T cells that were expressing checkpoint receptors, and myeloid-derived suppressor cells. We also looked, in more detail, at the types of T-cell receptors that were expressed on the surface of these T cells, and it looked like the combination of radiation and chemotherapy could change the clonality of the receptor on these T cells, suggesting that radiation or targeted tumor death could stimulate a more targeted immune response.
What can a community oncologist take away from these findings?
Chemotherapy and radiation have long been appreciated for their immunosuppressive effects. We all know that when you treat someone with radiation or chemotherapy, you can see a decrease in cytopenia and lymphocytes.
We are now learning that certain types of chemotherapy and radiation, given in the proper circumstance, can cause immunogenic cell death. That can possibly synergize with the newer types of immune checkpoint blockade that are being developed.
One of our study’s findings was that we saw an increase in T cells expressed in the PD-1 receptor. Those could potentially be targeted with new checkpoint inhibitors that target the PD-1 receptor. As we develop these therapies even further, there are exciting new combinations between immunotherapies and some of the traditional therapies that have long been used for head and neck cancer with potential.