Type III TGF-β receptor downregulation generates an immunotolerant tumor microenvironment
Brent A. Hanks, Alisha Holtzhausen, Katherine S. Evans, Rebekah Jamieson, Petra Gimpel, Olivia M. Campbell, Melissa Hector-Greene, Lihong Sun, Alok Tewari, Amanda George, Mark Starr, Andrew B. Nixon, Christi Augustine, Georgia Beasley, Douglas S. Tyler, Takayu Osada, Michael A. Morse, Leona Ling, H. Kim Lyerly, Gerard C. Blobe
Brent A. Hanks, Alisha Holtzhausen, Katherine S. Evans, Rebekah Jamieson, Petra Gimpel, Olivia M. Campbell, Melissa Hector-Greene, Lihong Sun, Alok Tewari, Amanda George, Mark Starr, Andrew B. Nixon, Christi Augustine, Georgia Beasley, Douglas S. Tyler, Takayu Osada, Michael A. Morse, Leona Ling, H. Kim Lyerly, Gerard C. Blobe
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Research Article

Type III TGF-β receptor downregulation generates an immunotolerant tumor microenvironment

Abstract

Cancers subvert the host immune system to facilitate disease progression. These evolved immunosuppressive mechanisms are also implicated in circumventing immunotherapeutic strategies. Emerging data indicate that local tumor-associated DC populations exhibit tolerogenic features by promoting Treg development; however, the mechanisms by which tumors manipulate DC and Treg function in the tumor microenvironment remain unclear. Type III TGF-β receptor (TGFBR3) and its shed extracellular domain (sTGFBR3) regulate TGF-β signaling and maintain epithelial homeostasis, with loss of TGFBR3 expression promoting progression early in breast cancer development. Using murine models of breast cancer and melanoma, we elucidated a tumor immunoevasion mechanism whereby loss of tumor-expressed TGFBR3/sTGFBR3 enhanced TGF-β signaling within locoregional DC populations and upregulated both the immunoregulatory enzyme indoleamine 2,3-dioxygenase (IDO) in plasmacytoid DCs and the CCL22 chemokine in myeloid DCs. Alterations in these DC populations mediated Treg infiltration and the suppression of antitumor immunity. Our findings provide mechanistic support for using TGF-β inhibitors to enhance the efficacy of tumor immunotherapy, indicate that sTGFBR3 levels could serve as a predictive immunotherapy biomarker, and expand the mechanisms by which TGFBR3 suppresses cancer progression to include effects on the tumor immune microenvironment.

Authors

Brent A. Hanks, Alisha Holtzhausen, Katherine S. Evans, Rebekah Jamieson, Petra Gimpel, Olivia M. Campbell, Melissa Hector-Greene, Lihong Sun, Alok Tewari, Amanda George, Mark Starr, Andrew B. Nixon, Christi Augustine, Georgia Beasley, Douglas S. Tyler, Takayu Osada, Michael A. Morse, Leona Ling, H. Kim Lyerly, Gerard C. Blobe

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Figure 3

Loss of TGFBR3 occurs during melanoma progression and suppresses the development of antitumor immunity.

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Loss of TGFBR3 occurs during melanoma progression and suppresses the dev...
(A) Oncomine microarray TGFBR3 expression analysis in human benign nevi and primary melanoma tissues. See Supplemental Table 2. (B) DNA hybridization blot analysis of TGFBR3 mRNA levels in normal human skin (N) and melanoma tumor tissues (T). (C) TGFBR3 IHC of human benign nevi, primary melanoma, and metastatic melanoma tumor tissues. 100 core tissues were evaluated. Representative ×20 fields are also shown. (D) B16-mOVA-TGFBR3 tumor growth relative to B16-mOVA control (ctrl) and B16/F10 (B16) tumors in syngeneic hosts. 5–6 tumors/condition. Representative of 3 independent experiments. (E) qRT-PCR of Cd8 and Foxp3 in B16-mOVA-TGFBR3 versus B16-mOVA tumors. 3 tumors/condition. Representative of 2 independent experiments. (F) CD8 and FOXP3 IHC of B16-mOVA-TGFBR3, B16-mOVA, and B16/F10 tumors. 10 fields/tumor, 3 tumors/condition. (G) Kb-OVA257–264–specific CD8+ T cell tetramer analysis of resected splenic and TDLN tissues from B16-mOVA-TGFBR3, B16-mOVA, and B16/F10 tumor-bearing mice. 3–6 mice/group. Representative of 2 independent experiments. Data are mean ± SEM. *P < 0.05, 2-tailed Student’s t test (A, E, and F), 1-way ANOVA (C, D, and G).