Selective inhibition of mTORC1 in tumor vessels increases antitumor immunity
Shan Wang, Ariel Raybuck, Eileen Shiuan, Sung Hoon Cho, Qingfei Wang, Dana M. Brantley-Sieders, Deanna Edwards, Margaret M. Allaman, James Nathan, Keith T. Wilson, David DeNardo, Siyuan Zhang, Rebecca Cook, Mark Boothby, Jin Chen
Shan Wang, Ariel Raybuck, Eileen Shiuan, Sung Hoon Cho, Qingfei Wang, Dana M. Brantley-Sieders, Deanna Edwards, Margaret M. Allaman, James Nathan, Keith T. Wilson, David DeNardo, Siyuan Zhang, Rebecca Cook, Mark Boothby, Jin Chen
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Research Article Immunology Oncology

Selective inhibition of mTORC1 in tumor vessels increases antitumor immunity

Abstract

A tumor blood vessel is a key regulator of tissue perfusion, immune cell trafficking, cancer metastasis, and therapeutic responsiveness. mTORC1 is a signaling node downstream of multiple angiogenic factors in the endothelium. However, mTORC1 inhibitors have limited efficacy in most solid tumors, in part due to inhibition of immune function at high doses used in oncology patients and compensatory PI3K signaling triggered by mTORC1 inhibition in tumor cells. Here we show that low-dose RAD001/everolimus, an mTORC1 inhibitor, selectively targets mTORC1 signaling in endothelial cells (ECs) without affecting tumor cells or immune cells, resulting in tumor vessel normalization and increased antitumor immunity. Notably, this phenotype was recapitulated upon targeted inducible gene ablation of the mTORC1 component Raptor in tumor ECs (RaptorECKO). Tumors grown in RaptorECKO mice displayed a robust increase in tumor-infiltrating lymphocytes due to GM-CSF–mediated activation of CD103+ dendritic cells and displayed decreased tumor growth and metastasis. GM-CSF neutralization restored tumor growth and metastasis, as did T cell depletion. Importantly, analyses of human tumor data sets support our animal studies. Collectively, these findings demonstrate that endothelial mTORC1 is an actionable target for tumor vessel normalization, which could be leveraged to enhance antitumor immune therapies.

Authors

Shan Wang, Ariel Raybuck, Eileen Shiuan, Sung Hoon Cho, Qingfei Wang, Dana M. Brantley-Sieders, Deanna Edwards, Margaret M. Allaman, James Nathan, Keith T. Wilson, David DeNardo, Siyuan Zhang, Rebecca Cook, Mark Boothby, Jin Chen

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Figure 4

Low-dose RAD001 increases the numbers and effector function of infiltrating T lymphocytes.

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Low-dose RAD001 increases the numbers and effector function of infiltrat...
(A) Schematic diagram showing the experimental design with LLC-HRE-mCherry-OVA tumor cell implantation, RAD001 treatment, and adoptive T cell transfer. (B and C) Representative flow cytometric plots and quantification of tumor-infiltrating CD45+ immune cells (B) and TCRβ+ T cells (C) in LLC tumors treated with low-dose RAD001. (D and E) Representative flow cytometric plots and quantification of Thy1.1+CD8+ (D) and CD8+YFP+ (IFN-γ+) (E) donor T cells in LLC tumors treated with low-dose RAD001. (F and G) Representative flow cytometric plots and quantification of Thy1.1+CD4+ (F) and CD4+YFP+ (IFN-γ+) (G) donor T cells in LLC tumors treated with low-dose RAD001. All data are presented as mean ± SD. **P ≤ 0.01. *P ≤ 0.05, Student’s 2-tailed t test.