Inhibiting the biogenesis of myeloid-derived suppressor cells enhances immunotherapy efficacy against mammary tumor progression
Sean H. Colligan, Andrea M. Amitrano, Robert A. Zollo, Jennifer Peresie, Elliot D. Kramer, Brian Morreale, Joseph Barbi, Prashant K. Singh, Han Yu, Jianmin Wang, Mateusz Opyrchal, David B. Sykes, Michael J. Nemeth, Scott I. Abrams
Sean H. Colligan, Andrea M. Amitrano, Robert A. Zollo, Jennifer Peresie, Elliot D. Kramer, Brian Morreale, Joseph Barbi, Prashant K. Singh, Han Yu, Jianmin Wang, Mateusz Opyrchal, David B. Sykes, Michael J. Nemeth, Scott I. Abrams
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Research Article Immunology

Inhibiting the biogenesis of myeloid-derived suppressor cells enhances immunotherapy efficacy against mammary tumor progression

Abstract

While immune checkpoint inhibitors (ICIs) have transformed the therapeutic landscape in oncology, they are effective in select subsets of patients. Efficacy may be limited by tumor-driven immune suppression, of which 1 key mechanism is the development of myeloid-derived suppressor cells (MDSCs). A fundamental gap in MDSC therapeutics is the lack of approaches that target MDSC biogenesis. We hypothesized that targeting MDSC biogenesis would mitigate MDSC burden and bolster tumor responses to ICIs. We tested a class of agents, dihydroorotate dehydrogenase (DHODH) inhibitors, that have been previously shown to restore the terminal differentiation of leukemic myeloid progenitors. DHODH inhibitors have demonstrated preclinical safety and are under clinical study for hematologic malignancies. Using mouse models of mammary cancer that elicit robust MDSC responses, we demonstrated that the DHODH inhibitor brequinar (a) suppressed MDSC production from early-stage myeloid progenitors, which was accompanied by enhanced myeloid maturation; (b) augmented the antitumor and antimetastatic activities of programmed cell death 1–based (PD-1–based) ICI therapy in ICI-resistant mammary cancer models; and (c) acted in concert with PD-1 blockade through modulation of MDSC and CD8+ T cell responses. Moreover, brequinar facilitated myeloid maturation and inhibited immune-suppressive features in human bone marrow culture systems. These findings advance the concept of MDSC differentiation therapy in immuno-oncology.

Authors

Sean H. Colligan, Andrea M. Amitrano, Robert A. Zollo, Jennifer Peresie, Elliot D. Kramer, Brian Morreale, Joseph Barbi, Prashant K. Singh, Han Yu, Jianmin Wang, Mateusz Opyrchal, David B. Sykes, Michael J. Nemeth, Scott I. Abrams

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Figure 3

BRQ inhibits MDSC function in vivo.

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BRQ inhibits MDSC function in vivo. (A) 4T1 tumor growth in mice treated...
(A) 4T1 tumor growth in mice treated with vehicle or daily injections of 10 mg/kg BRQ (from Clear Creek), starting on day 9 after implantation. (B) Flow cytometric analysis of Ly6C and Ly6G expression on the gated splenic CD11b+ cells. (C) Absolute numbers of splenic CD11b+Ly6CloLy6G+ and CD11b+Ly6ChiLy6G cells from B. (D) Numbers of WBCs, lymphocytes, monocytes, and granulocytes per microliter of peripheral blood. Boxed areas indicate the normal range (NR). (E) Expression of CD101 on the gated splenic CD11b+Ly6CloLy6G+ cells. The percentage of CD101+ cells and CD101 MFI are shown. (F) Expression of Ly6G and Ly6C on the gated CD11b+Ly6CloLy6G+ cells. (G) Proliferation of activated CD4+ or CD8+ T cells following coculturing with PMN-MDSCs isolated as in Figure 2C from 4T1-bearing animals. (H) Fold change in gene expression in purified MDSCs from the spleen (determined by RT-qPCR and normalized to PPIA). The Miltenyi Mouse Myeloid-Derived Suppressor Cell Isolation Kit was used for CD84, JAML, and TGFB1, and the STEMCELL EasySep Mouse MDSC isolation kit was used for ARG1, NOS2, S100A8, and S100A9. Data in all panels are presented as the mean ± SEM of the indicated data points. (AG) n = 3–10 mice/group. Data in H are presented as the mean ± SEM of triplicate determinations and are representative of experiments using up to 3 separate mice, with similar results. *P < 0.05, **P < 0.01, and ***P < 0.001, by 2-sided Wald test (A) and unpaired t test (CG).