期刊
JOURNAL FOR IMMUNOTHERAPY OF CANCER
卷 8, 期 1, 页码 -出版社
BMJ PUBLISHING GROUP
DOI: 10.1136/jitc-2020-000792
关键词
prostatic neoplasms; radiotherapy; gene expression profiling; computational biology
资金
- PeterMac Foundation
- Victorian Cancer Agency
- Prostate Cancer Foundation USA
- Cancer Council Victoria
- NHMRC
Background Prostate cancer (PCa) has a profoundly immunosuppressive microenvironment and is commonly immune excluded with few infiltrative lymphocytes and low levels of immune activation. High-dose radiation has been demonstrated to stimulate the immune system in various human solid tumors. We hypothesized that localized radiation therapy, in the form of high dose-rate brachytherapy (HDRBT), would overcome immune suppression in PCa. Methods To investigate whether HDRBT altered prostate immune context, we analyzed preradiation versus postradiation human tissue from a cohort of 24 patients with localized PCa that received HDRBT as primary treatment (RadBank cohort). We performed Nanostring immune gene expression profiling, digital spatial profiling, and high-throughput immune cell multiplex immunohistochemistry analysis. We also resolved tumor and nontumor zones in spatial and bioinformatic analyses to explore the immunological response. Results Nanostring immune profiling revealed numerous immune checkpoint molecules (eg, B7-H3, CTLA4, PDL1, and PDL2) and TGF beta levels were increased in response to HDRBT. We used a published 16-gene tumor inflammation signature (TIS) to divide tumors into distinct immune activation states (high:hot, intermediate and low:cold) and showed that most localized PCa are cold tumors pre-HDRBT. Crucially, HDRBT converted 80% of these 'cold'-phenotype tumors into an 'intermediate' or 'hot' class. We used digital spatial profiling to show these HDRBT-induced changes in prostate TIS scores were derived from the nontumor regions. Furthermore, these changes in TIS were also associated with pervasive changes in immune cell density and spatial relationships-in particular, between T cell subsets and antigen presenting cells. We identified an increased density of CD4(+)FOXP3(+)T cells, CD68(+)macrophages and CD68(+)CD11c(+)dendritic cells in response to HDRBT. The only subset change specific to tumor zones was PDL1(-)macrophages. While these immune responses were heterogeneous, HDRBT induced significant changes in immune cell associations, including a gained T cell and HMWCK(+)PDL1(+)interaction in tumor zones. Conclusion In conclusion, we showed HDRBT converted cold prostate tumors into more immunologically activated hot tissues, with accompanying spatially organized immune infiltrates and signaling changes. Understanding and potentially harnessing these changes will have widespread implications for the future treatment of localized PCa, including rational use of combination radio-immunotherapy.
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