Coordinate regulation of neutrophil homeostasis by liver X receptors in mice
Cynthia Hong, Yoko Kidani, Noelia A-Gonzalez, Tram Phung, Ayaka Ito, Xin Rong, Katrin Ericson, Hanna Mikkola, Simon W. Beaven, Lloyd S. Miller, Wen-Hai Shao, Philip L. Cohen, Antonio Castrillo, Peter Tontonoz, Steven J. Bensinger
Cynthia Hong, Yoko Kidani, Noelia A-Gonzalez, Tram Phung, Ayaka Ito, Xin Rong, Katrin Ericson, Hanna Mikkola, Simon W. Beaven, Lloyd S. Miller, Wen-Hai Shao, Philip L. Cohen, Antonio Castrillo, Peter Tontonoz, Steven J. Bensinger
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Research Article Immunology

Coordinate regulation of neutrophil homeostasis by liver X receptors in mice

Abstract

The most abundant immune cell type is the neutrophil, a key first responder after pathogen invasion. Neutrophil numbers in the periphery are tightly regulated to prevent opportunistic infections and aberrant inflammation. In healthy individuals, more than 1 × 109 neutrophils per kilogram body weight are released from the bone marrow every 24 hours. To maintain homeostatic levels, an equivalent number of senescent cells must be cleared from circulation. Recent studies indicate that clearance of senescent neutrophils by resident tissue macrophages and DCs helps to set homeostatic levels of neutrophils via effects on the IL-23/IL-17/G-CSF cytokine axis, which stimulates neutrophil production in the bone marrow. However, the molecular events in phagocytes underlying this feedback loop have remained indeterminate. Liver X receptors (LXRs) are members of the nuclear receptor superfamily that regulate both lipid metabolic and inflammatory gene expression. Here, we demonstrate that LXRs contribute to the control of neutrophil homeostasis. Using gain- and loss-of-function models, we found that LXR signaling regulated the efficient clearance of senescent neutrophils by peripheral tissue APCs in a Mer-dependent manner. Furthermore, activation of LXR by engulfed neutrophils directly repressed the IL-23/IL-17/G-CSF granulopoietic cytokine cascade. These results provide mechanistic insight into the molecular events orchestrating neutrophil homeostasis and advance our understanding of LXRs as integrators of phagocyte function, lipid metabolism, and cytokine gene expression.

Authors

Cynthia Hong, Yoko Kidani, Noelia A-Gonzalez, Tram Phung, Ayaka Ito, Xin Rong, Katrin Ericson, Hanna Mikkola, Simon W. Beaven, Lloyd S. Miller, Wen-Hai Shao, Philip L. Cohen, Antonio Castrillo, Peter Tontonoz, Steven J. Bensinger

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Figure 3

Accumulation of neutrophils in spleen and liver of LXRαβ–/– mice.

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Accumulation of neutrophils in spleen and liver of LXRαβ–/– mice. (A...
(A and B) FACS analysis and absolute numbers of CD11bhiGR-1hi cells in spleen of 6- to 8-week-old WT and LXRαβ–/– mice. (A) Percent cells in the circled region is indicated in each plot. (B) Each point represents an individual mouse. (C) H&E stains of FACS-sorted CD11bhiGR-1hi cells in spleen of 6-week-old WT and LXRαβ–/– mice. Original magnification, ×400, ×640 (insets). (D) FACS plot of CD11bhiGR-1hi cells in liver parenchyma from WT and LXRαβ–/– mice. Liver was perfused with saline and then collagenase for 5 minutes each prior to harvesting tissue. Percent cells in the circled region is indicated in each plot. (E and F) Expression and frequency of intracellular cleaved caspase-3 in splenic GR-1hiCD11bhi cells gated through MHC class II cells. Numbers in E denote intracellular cleaved caspase-3 frequency in the bracketed regions. FACS plots are representative of 8 mice. ***P < 0.001.