Immunological mechanisms of the antitumor effects of supplemental oxygenation

Stephen M. Hatfield; Jorgen Kjaergaard; Dmitriy Lukashev; Taylor H. Schreiber; Bryan Belikoff; Robert Abbott; Shalini Sethumadhavan; Phaethon Philbrook; Kami Ko; Ryan Cannici; Molly Thayer; Scott Rodig; Jeffrey L. Kutok; Edwin K. Jackson; Barry Karger; Eckhard R. Podack; Akio Ohta; Michail V. Sitkovsky

doi:10.1126/scitranslmed.aaa1260

Immunological mechanisms of the antitumor effects of supplemental oxygenation

Stephen M. Hatfield
, Jorgen Kjaergaard
, Dmitriy Lukashev
, Taylor H. Schreiber
, Bryan Belikoff
, Robert Abbott
, Shalini Sethumadhavan
, Phaethon Philbrook
, Kami Ko
, Ryan Cannici
, Molly Thayer
, Scott Rodig
, Jeffrey L. Kutok
, Edwin K. Jackson
, Barry Karger
, Eckhard R. Podack
, Akio Ohta
, Michail V. Sitkovsky

Research output: Contribution to journal › Article › peer-review

480 Scopus citations

Abstract

Antitumor T cells either avoid or are inhibited in hypoxic and extracellular adenosine-rich tumor microenvironments (TMEs) by A2A adenosine receptors. This may limit further advances in cancer immunotherapy. There is a need for readily available and safe treatments that weaken the hypoxia-A2-adenosinergic immunosuppression in the TME. Recently, we reported that respiratory hyperoxia decreases intratumoral hypoxia and concentrations of extracellular adenosine. We show that it also reverses the hypoxia-adenosinergic immunosuppression in the TME. This, in turn, stimulates (i) enhanced intratumoral infiltration and reduced inhibition of endogenously developed or adoptively transfered tumor-reactive CD8 T cells, (ii) increased proinflammatory cytokines and decreased immunosuppressive molecules, such as transforming growth factor-β (TGF-β), (iii) weakened immunosuppression by regulatory T cells, and (iv) improved lung tumor regression and long-term survival in mice. Respiratory hyperoxia also promoted the regression of spontaneous metastasis from orthotopically grown breast tumors. These effects are entirely T cell-and natural killer cell-dependent, thereby justifying the testing of supplemental oxygen as an immunological coadjuvant to combine with existing immunotherapies for cancer.

Original language	English (US)
Journal	Science Translational Medicine
Volume	7
Issue number	277
DOIs	https://doi.org/10.1126/scitranslmed.aaa1260
State	Published - Mar 4 2015
Externally published	Yes

ASJC Scopus subject areas

General Medicine

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Hatfield, S. M., Kjaergaard, J., Lukashev, D., Schreiber, T. H., Belikoff, B., Abbott, R., Sethumadhavan, S., Philbrook, P., Ko, K., Cannici, R., Thayer, M., Rodig, S., Kutok, J. L., Jackson, E. K., Karger, B., Podack, E. R., Ohta, A., & Sitkovsky, M. V. (2015). Immunological mechanisms of the antitumor effects of supplemental oxygenation. Science Translational Medicine, 7(277). https://doi.org/10.1126/scitranslmed.aaa1260

Hatfield, SM, Kjaergaard, J, Lukashev, D, Schreiber, TH, Belikoff, B, Abbott, R, Sethumadhavan, S, Philbrook, P, Ko, K, Cannici, R, Thayer, M, Rodig, S, Kutok, JL, Jackson, EK, Karger, B, Podack, ER, Ohta, A & Sitkovsky, MV 2015, 'Immunological mechanisms of the antitumor effects of supplemental oxygenation', Science Translational Medicine, vol. 7, no. 277. https://doi.org/10.1126/scitranslmed.aaa1260

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title = "Immunological mechanisms of the antitumor effects of supplemental oxygenation",

abstract = "Antitumor T cells either avoid or are inhibited in hypoxic and extracellular adenosine-rich tumor microenvironments (TMEs) by A2A adenosine receptors. This may limit further advances in cancer immunotherapy. There is a need for readily available and safe treatments that weaken the hypoxia-A2-adenosinergic immunosuppression in the TME. Recently, we reported that respiratory hyperoxia decreases intratumoral hypoxia and concentrations of extracellular adenosine. We show that it also reverses the hypoxia-adenosinergic immunosuppression in the TME. This, in turn, stimulates (i) enhanced intratumoral infiltration and reduced inhibition of endogenously developed or adoptively transfered tumor-reactive CD8 T cells, (ii) increased proinflammatory cytokines and decreased immunosuppressive molecules, such as transforming growth factor-β (TGF-β), (iii) weakened immunosuppression by regulatory T cells, and (iv) improved lung tumor regression and long-term survival in mice. Respiratory hyperoxia also promoted the regression of spontaneous metastasis from orthotopically grown breast tumors. These effects are entirely T cell-and natural killer cell-dependent, thereby justifying the testing of supplemental oxygen as an immunological coadjuvant to combine with existing immunotherapies for cancer.",

author = "Hatfield, \{Stephen M.\} and Jorgen Kjaergaard and Dmitriy Lukashev and Schreiber, \{Taylor H.\} and Bryan Belikoff and Robert Abbott and Shalini Sethumadhavan and Phaethon Philbrook and Kami Ko and Ryan Cannici and Molly Thayer and Scott Rodig and Kutok, \{Jeffrey L.\} and Jackson, \{Edwin K.\} and Barry Karger and Podack, \{Eckhard R.\} and Akio Ohta and Sitkovsky, \{Michail V.\}",

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AU - Hatfield, Stephen M.

AU - Kjaergaard, Jorgen

AU - Lukashev, Dmitriy

AU - Schreiber, Taylor H.

AU - Belikoff, Bryan

AU - Abbott, Robert

AU - Sethumadhavan, Shalini

AU - Philbrook, Phaethon

AU - Ko, Kami

AU - Cannici, Ryan

AU - Thayer, Molly

AU - Rodig, Scott

AU - Kutok, Jeffrey L.

AU - Jackson, Edwin K.

AU - Karger, Barry

AU - Podack, Eckhard R.

AU - Ohta, Akio

AU - Sitkovsky, Michail V.

PY - 2015/3/4

Y1 - 2015/3/4

N2 - Antitumor T cells either avoid or are inhibited in hypoxic and extracellular adenosine-rich tumor microenvironments (TMEs) by A2A adenosine receptors. This may limit further advances in cancer immunotherapy. There is a need for readily available and safe treatments that weaken the hypoxia-A2-adenosinergic immunosuppression in the TME. Recently, we reported that respiratory hyperoxia decreases intratumoral hypoxia and concentrations of extracellular adenosine. We show that it also reverses the hypoxia-adenosinergic immunosuppression in the TME. This, in turn, stimulates (i) enhanced intratumoral infiltration and reduced inhibition of endogenously developed or adoptively transfered tumor-reactive CD8 T cells, (ii) increased proinflammatory cytokines and decreased immunosuppressive molecules, such as transforming growth factor-β (TGF-β), (iii) weakened immunosuppression by regulatory T cells, and (iv) improved lung tumor regression and long-term survival in mice. Respiratory hyperoxia also promoted the regression of spontaneous metastasis from orthotopically grown breast tumors. These effects are entirely T cell-and natural killer cell-dependent, thereby justifying the testing of supplemental oxygen as an immunological coadjuvant to combine with existing immunotherapies for cancer.

AB - Antitumor T cells either avoid or are inhibited in hypoxic and extracellular adenosine-rich tumor microenvironments (TMEs) by A2A adenosine receptors. This may limit further advances in cancer immunotherapy. There is a need for readily available and safe treatments that weaken the hypoxia-A2-adenosinergic immunosuppression in the TME. Recently, we reported that respiratory hyperoxia decreases intratumoral hypoxia and concentrations of extracellular adenosine. We show that it also reverses the hypoxia-adenosinergic immunosuppression in the TME. This, in turn, stimulates (i) enhanced intratumoral infiltration and reduced inhibition of endogenously developed or adoptively transfered tumor-reactive CD8 T cells, (ii) increased proinflammatory cytokines and decreased immunosuppressive molecules, such as transforming growth factor-β (TGF-β), (iii) weakened immunosuppression by regulatory T cells, and (iv) improved lung tumor regression and long-term survival in mice. Respiratory hyperoxia also promoted the regression of spontaneous metastasis from orthotopically grown breast tumors. These effects are entirely T cell-and natural killer cell-dependent, thereby justifying the testing of supplemental oxygen as an immunological coadjuvant to combine with existing immunotherapies for cancer.

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Immunological mechanisms of the antitumor effects of supplemental oxygenation

Abstract

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