Heme oxygenase-1 orchestrates the immunosuppressive program of tumor-associated macrophages
Emmanuelle Alaluf, Benoît Vokaer, Aurélie Detavernier, Abdulkader Azouz, Marion Splittgerber, Alice Carrette, Louis Boon, Frédérick Libert, Miguel Soares, Alain Le Moine, Stanislas Goriely
Emmanuelle Alaluf, Benoît Vokaer, Aurélie Detavernier, Abdulkader Azouz, Marion Splittgerber, Alice Carrette, Louis Boon, Frédérick Libert, Miguel Soares, Alain Le Moine, Stanislas Goriely
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Research Article Immunology Oncology

Heme oxygenase-1 orchestrates the immunosuppressive program of tumor-associated macrophages

Abstract

Tumor-associated macrophages (TAMs) contribute to the maintenance of a strong immunosuppressive environment, supporting tumor progression and resistance to treatment. To date, the mechanisms that drive acquisition of these immunosuppressive features are still poorly defined. Heme oxygenase-1 (HO-1) is the rate-limiting enzyme that catabolizes free heme. It displays important cytoprotective, antiinflammatory, and antioxidant properties. A growing body of evidence suggests that HO-1 may also promote tumor development. Herein, we show that HO-1 is highly expressed in monocytic cells in the tumor microenvironment (TME) once they differentiate into TAMs. Deletion of HO-1 in the myeloid compartment enhances the beneficial effects of a therapeutic antitumor vaccine by restoring CD8+ T cell proliferation and cytotoxicity. We further show that induction of HO-1 plays a major role in monocyte education by tumor cells by modulating their transcriptional and epigenetic programs. These results identify HO-1 as a valuable therapeutic target to reprogram the TME and synergize with current cancer therapies to facilitate antitumor response.

Authors

Emmanuelle Alaluf, Benoît Vokaer, Aurélie Detavernier, Abdulkader Azouz, Marion Splittgerber, Alice Carrette, Louis Boon, Frédérick Libert, Miguel Soares, Alain Le Moine, Stanislas Goriely

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Figure 3

Myeloid HO-1 promotes tumor growth by an immunosuppressive mechanism.

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Myeloid HO-1 promotes tumor growth by an immunosuppressive mechanism. EG...
EG7-OVA tumor cells were inoculated intradermally at day 0 on the right flank of Hmox1ΔM mice (n = 11). Their tumor volumes were compared with Hmox1fl/fl littermates (n = 10) at regular intervals following implantation. (A) There was no significant difference between the groups of tumors. However, a blockade of tumor growth was observed in Hmox1ΔM mice (n = 11) compared with Hmox1fl/fl littermates (n = 8) after therapeutic immunization with subcutaneous injection of ovalbumin protein (10 μg/mouse) and poly(I:C) (50 μg/mouse) 7 days after tumor inoculation and boost 7 days later on the right flank of the animals. (B) Intraperitoneal administration of isotype control or CD8+ T cell–depleting monoclonal antibody (clone YTS169) 1 time/wk (500 μg/mouse). (C) Bilateral tumor model, where EG7-OVA tumor cells were inoculated on the right flank and EL4 cells on the left flank from Hmox1ΔM mice (n = 8) and Hmox1fl/fl mice (n = 10) that were therapeutically immunized as described above and adoptively transferred with OT-1 cells (106 cells/mouse) at day 10. Data are representative of 3 independent experiments. Statistical analysis was performed with Mann-Whitney U test (A and B) and Wilcoxon matched-pairs signed rank test (C). *P < 0.05; **P < 0.01; ***P < 0.001.