PPT1 inhibition enhances the antitumor activity of anti–PD-1 antibody in melanoma
Gaurav Sharma, … , Dmitry I. Gabrilovich, Ravi K. Amaravadi
Gaurav Sharma, … , Dmitry I. Gabrilovich, Ravi K. Amaravadi
Published August 11, 2020
Citation Information: JCI Insight. 2020;5(17):e133225. https://doi.org/10.1172/jci.insight.133225.
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Research Article Oncology Therapeutics

PPT1 inhibition enhances the antitumor activity of anti–PD-1 antibody in melanoma

Abstract

New strategies are needed to enhance the efficacy of anti–programmed cell death protein antibody (anti–PD-1 Ab) in cancer. Here, we report that inhibiting palmitoyl-protein thioesterase 1 (PPT1), a target of chloroquine derivatives like hydroxychloroquine (HCQ), enhances the antitumor efficacy of anti–PD-1 Ab in melanoma. The combination resulted in tumor growth impairment and improved survival in mouse models. Genetic suppression of core autophagy genes, but not Ppt1, in cancer cells reduced priming and cytotoxic capacity of primed T cells. Exposure of antigen-primed T cells to macrophage-conditioned medium derived from macrophages treated with PPT1 inhibitors enhanced melanoma-specific killing. Genetic or chemical Ppt1 inhibition resulted in M2 to M1 phenotype switching in macrophages. The combination was associated with a reduction in myeloid-derived suppressor cells in the tumor. Ppt1 inhibition by HCQ, or DC661, induced cyclic GMP-AMP synthase/stimulator of interferon genes/TANK binding kinase 1 pathway activation and the secretion of interferon-β in macrophages, the latter being a key component for augmented T cell–mediated cytotoxicity. Genetic Ppt1 inhibition produced similar findings. These data provide the rationale for this combination in melanoma clinical trials and further investigation in other cancers.

Authors

Gaurav Sharma, Rani Ojha, Estela Noguera-Ortega, Vito W. Rebecca, John Attanasio, Shujing Liu, Shengfu Piao, Jennifer J. Lee, Michael C. Nicastri, Sandra L. Harper, Amruta Ronghe, Vaibhav Jain, Jeffrey D. Winkler, David W. Speicher, Jerome Mastio, Phyllis A. Gimotty, Xiaowei Xu, E. John Wherry, Dmitry I. Gabrilovich, Ravi K. Amaravadi

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Figure 5

PPT1 acts as a molecular switch, and its inhibition results in calcium-dependent p38 phosphorylation and macrophage polarization.

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PPT1 acts as a molecular switch, and its inhibition results in calcium-d...
(A) Confocal microscopy of RAW 264.7 macrophages for staining calcium by Fluo-4, AM, dye in PPT1 inhibitor HCQ- and DC661-treated cells. Images were taken at original magnification ×40 under Olympus IX71 confocal microscope. (B) Immunoblots showing p-p38 and total p38 in DC661-, HCQ-, HDSF-, and LPS-treated RAW 264.7 macrophages. (C) Immunoblots for p-p38 and p38 in Ppt1-KD condition in RAW 264.7 macrophages. (D) Immunoblot representing p-p65 and p65 in HCQ-, DC661-, and LPS-treated macrophages. (E) Immunoblots for p-p38 in HCQ or DC661 with cotreatment of p38 inhibitor SB203580 (5 μM) in macrophages. Dot plots representing qPCR expression in mouse macrophage RAW 264.7 cells polarized to an M2 phenotype following treatment with HCQ 10 μM or DC661 0.6 μM or cotreatment with p38 inhibitor as indicated. Each result was reproduced with 3 independent experiments. (F) Immunoblots for p-p38 in HCQ and DC661 or cotreatment with calcium chelator BAPTA-AM. (G) Immunoblots for p-p38 in HCQ and DC661 or cotreatment with calmodulin inhibitor W7. (H) Immunoblots for p-p38 in HCQ, DC661, or TRPML1 agonist MK6-83 or cotreatment with TRPML1 inhibitor verapamil. (I) Immunoblots for p-p38 in HCQ, DC661, or TRPML1 agonist MK6-83 or cotreatment with PIKfyve inhibitor vacuolin-1. (J) Immunoblot for p-p38 in DC661-treated cells or cotreatment of ER calcium channel inhibitor ryanodine or mitochondrial Na+/Ca2+ exchanger inhibitor CGP37157. Immunoblot for p-p38 in TRPML1 agonist or cotreatment of ryanodine or CGP37157 in macrophages. Scale bar: 100 μm. * indicates P < 0.05. All t tests were 2 tailed and 2 sample.