Lysosomal acid lipase, CSF1R, and PD-L1 determine functions of CD11c+ myeloid-derived suppressor cells
Ting Zhao, … , Hong Du, Cong Yan
Ting Zhao, … , Hong Du, Cong Yan
Published August 2, 2022
Citation Information: JCI Insight. 2022;7(17):e156623. https://doi.org/10.1172/jci.insight.156623.
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Research Article Immunology

Lysosomal acid lipase, CSF1R, and PD-L1 determine functions of CD11c+ myeloid-derived suppressor cells

Abstract

Lysosomal acid lipase (LAL) is a key enzyme in the metabolic pathway of neutral lipids. In the blood of LAL-deficient (Lal–/–) mice, increased CD11c+ cells were accompanied by upregulated programmed cell death ligand 1 (PD-L1) expression. Single-cell RNA sequencing of Lal–/– CD11c+ cells identified 2 distinctive clusters with a major metabolic shift toward glucose utilization and reactive oxygen species overproduction. Pharmacologically blocking pyruvate dehydrogenase in glycolysis not only reduced CD11c+ cells and their PD-L1 expression but also reversed their capabilities of T cell suppression and tumor growth stimulation. Colony-stimulating factor 1 receptor (CSF1R) played an essential role in controlling Lal–/– CD11c+ cell homeostasis and function and PD-L1 expression. Pharmacological inhibition of LAL activity increased CD11c, PD-L1, and CSF1R levels in both normal murine myeloid cells and human blood cells. Tumor-bearing mice and human patients with non–small cell lung cancer also showed CD11c+ cell expansion with PD-L1 and CSF1R upregulation and immunosuppression. There were positive correlations among CD11c, PD-L1, and CSF1R expression and negative correlations with LAL expression in patients with lung cancer or melanoma using The Cancer Genome Atlas database and patient samples. Therefore, CD11c+ cells switched their functions to immune suppression and tumor growth stimulation through CSF1R/PD-L1 upregulation and metabolic reprogramming.

Authors

Ting Zhao, Sheng Liu, Xinchun Ding, Erica M. Johnson, Nasser H. Hanna, Kanhaiya Singh, Chandan K. Sen, Jun Wan, Hong Du, Cong Yan

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Figure 5

CSF1R expression and function in Lal–/– CD11c+ cells.

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CSF1R expression and function in Lal–/– CD11c+ cells. (A) Csf1r expressi...
(A) Csf1r expression across cell clusters in t-SNE plots of CD11c+ cells from Lal–/– versus Lal+/+ mice. (B) Percentage of CSF1R+ cells in blood CD11c+ cells of Lal–/– versus Lal+/+ mice by flow cytometry analysis. (C) Isolated Lal+/+ or Lal–/– CD11c+ cells were pretreated with IgG or anti-CSF1R antibody (5 μg/mL) and cocultured with CFSE-labeled Lal+/+ CD4+ T cells (at 1:1 ratio). The proliferation of labeled CD4+ T cells was analyzed by flow cytometry. (D) Isolated Lal+/+ or Lal–/– CD11c+ cells (2 × 105) were pretreated with IgG or anti-CSF1R antibody (5 μg/mL) and coinjected with B16 melanoma cells (2 × 105) into the flank region of Lal+/+ recipient mice. The tumor size was measured at 14 days after cell injection. (E) Percentage of PD-L1+ cells in CD11c+ cells after anti-CSF1R antibody treatment (5 μg/mL) by flow cytometry analysis. (F) Percentages of CSF1R+ cells, PD-L1+ cells, PD-L1+CSF1R+ cells, and IFN-γ+ cells and MFI of IFN-γ in blood CD11c+ cells and percentage of blood CD11c+ cells in Lal+/+, Lal–/–, untreated (–DOX), and DOX-treated (+DOX) c-fms–Tg/KO (Tg/KO) mice by flow cytometry analysis. Data are expressed as mean ± SD. Experiments were independently repeated, n = 6 for B, n = 5 for C and E, n = 10 for D, n = 6–7 for F. **P < 0.01, unpaired Student’s t test for B, 2-way ANOVA for C and E, 1-way ANOVA for D and F.