Tumor infiltrating PD-1+ dendritic cells mediate immune suppression in ovarian cancer

Within the ovarian cancer microenvironment there are several mechanisms that suppress the actions of anti-tumor immune effectors. Delineating the complex immune microenvironment is an important goal towards developing effective immune-based therapies. A dominant pathway of immune suppression in ovar...

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Published in:The Journal of immunology (1950) 2011-05, Vol.186 (12), p.6905-6913
Main Authors: Krempski, James, Karyampudi, Lavakumar, Behrens, Marshall D., Erskine, Courtney L., Hartmann, Lynn, Dong, Haidong, Goode, Ellen L., Kalli, Kimberly R., Knutson, Keith L.
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container_end_page 6913
container_issue 12
container_start_page 6905
container_title The Journal of immunology (1950)
container_volume 186
creator Krempski, James
Karyampudi, Lavakumar
Behrens, Marshall D.
Erskine, Courtney L.
Hartmann, Lynn
Dong, Haidong
Goode, Ellen L.
Kalli, Kimberly R.
Knutson, Keith L.
description Within the ovarian cancer microenvironment there are several mechanisms that suppress the actions of anti-tumor immune effectors. Delineating the complex immune microenvironment is an important goal towards developing effective immune-based therapies. A dominant pathway of immune suppression in ovarian cancer involves tumor-associated and dendritic cell-associated, B7-H1. The interaction of B7-H1 with PD-1 on tumor-infiltrating T cells is a widely cited theory of immune suppression involving B7-H1 in ovarian cancer. Recent studies suggest that the B7-H1 ligand, PD-1, is also expressed on myeloid cells complicating interpretations of how B7-H1 regulates dendritic cell (DC) function in the tumor. In this study we found that ovarian cancer-infiltrating DCs progressively expressed increased levels of PD-1 over time in addition to B7-H1. These dual-positive PD-1 + B7-H1 + DCs have a classical DC phenotype (i.e. CD11c + CD11b + CD8 − ) but are immature, suppressive and respond poorly to danger signals. Accumulation of PD-1 + B7-H1 + DC in the tumor was associated with suppression of T cell activity and decreased infiltrating T cells in advancing tumors. T cell suppressor function of these DCs appeared to be mediated by T cell associated PD-1. In contrast, ligation of PD-1 expressed on the tumor-associated DC suppressed NFκB activation, release of immune regulatory cytokines, and upregulation of co-stimulatory molecules. PD-1 blockade in mice bearing ovarian cancer substantially reduced tumor burden and increased effector antigen-specific T cell responses. Our results reveal a novel role of tumor infiltrating PD-1+B7-H1+ DCs in mediating immune suppression in ovarian cancer.
doi_str_mv 10.4049/jimmunol.1100274
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Delineating the complex immune microenvironment is an important goal towards developing effective immune-based therapies. A dominant pathway of immune suppression in ovarian cancer involves tumor-associated and dendritic cell-associated, B7-H1. The interaction of B7-H1 with PD-1 on tumor-infiltrating T cells is a widely cited theory of immune suppression involving B7-H1 in ovarian cancer. Recent studies suggest that the B7-H1 ligand, PD-1, is also expressed on myeloid cells complicating interpretations of how B7-H1 regulates dendritic cell (DC) function in the tumor. In this study we found that ovarian cancer-infiltrating DCs progressively expressed increased levels of PD-1 over time in addition to B7-H1. These dual-positive PD-1 + B7-H1 + DCs have a classical DC phenotype (i.e. CD11c + CD11b + CD8 − ) but are immature, suppressive and respond poorly to danger signals. Accumulation of PD-1 + B7-H1 + DC in the tumor was associated with suppression of T cell activity and decreased infiltrating T cells in advancing tumors. T cell suppressor function of these DCs appeared to be mediated by T cell associated PD-1. In contrast, ligation of PD-1 expressed on the tumor-associated DC suppressed NFκB activation, release of immune regulatory cytokines, and upregulation of co-stimulatory molecules. PD-1 blockade in mice bearing ovarian cancer substantially reduced tumor burden and increased effector antigen-specific T cell responses. 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title Tumor infiltrating PD-1+ dendritic cells mediate immune suppression in ovarian cancer
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