Hemolysis dictates monocyte differentiation via two distinct pathways in sickle cell disease vaso-occlusion
Yunfeng Liu, … , Hui Zhong, Karina Yazdanbakhsh
Yunfeng Liu, … , Hui Zhong, Karina Yazdanbakhsh
Published July 25, 2023
Citation Information: J Clin Invest. 2023;133(18):e172087. https://doi.org/10.1172/JCI172087.
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Research Article Hematology

Hemolysis dictates monocyte differentiation via two distinct pathways in sickle cell disease vaso-occlusion

Abstract

Sickle cell disease (SCD) is a hereditary hemoglobinopathy characterized by painful vaso-occlusive crises (VOC) and chronic hemolysis. The mononuclear phagocyte system is pivotal to SCD pathophysiology, but the mechanisms governing monocyte/macrophage differentiation remain unknown. This study examined the influence of hemolysis on circulating monocyte trajectories in SCD. We discovered that hemolysis stimulated CSF-1 production, partly by endothelial cells via Nrf2, promoting classical monocyte (CMo) differentiation into blood patrolling monocytes (PMo) in SCD mice. However, hemolysis also upregulated CCL-2 through IFN-I, inducing CMo transmigration and differentiation into tissue monocyte–derived macrophages. Blocking CMo transmigration by anti–P selectin antibody in SCD mice increased circulating PMo, corroborating that CMo-to–tissue macrophage differentiation occurs at the expense of CMo-to–blood PMo differentiation. We observed a positive correlation between plasma CSF-1/CCL-2 ratios and blood PMo levels in patients with SCD, underscoring the clinical significance of these two opposing factors in monocyte differentiation. Combined treatment with CSF-1 and anti–P selectin antibody more effectively increased PMo numbers and reduced stasis compared with single-agent therapies in SCD mice. Altogether, these data indicate that monocyte fates are regulated by the balance between two heme pathways, Nrf2/CSF-1 and IFN-I/CCL-2, and suggest that the CSF-1/CCL-2 ratio may present a diagnostic and therapeutic target in SCD.

Authors

Yunfeng Liu, Shan Su, Sarah Shayo, Weili Bao, Mouli Pal, Kai Dou, Patricia A. Shi, Banu Aygun, Sally Campbell-Lee, Cheryl A. Lobo, Avital Mendelson, Xiuli An, Deepa Manwani, Hui Zhong, Karina Yazdanbakhsh

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Figure 3

The relationship between PMo numbers and the ratio of CSF-1/CCL-2.

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The relationship between PMo numbers and the ratio of CSF-1/CCL-2. (A) S...
(A) Scatter plot analysis showing correlation relationship between plasma CSF-1 levels and absolute numbers of circulating PMo in patients with SCD (n = 30, see Supplemental Figure 3A for human PMo gating strategy). (B) Scatter plot analysis showing correlation relationship between the ratio of plasma CSF-1 versus CCL-2 levels and absolute numbers of circulating PMo in patients with SCD (n = 30). (C) Plasma CSF-1 levels and (D) plasma CCL-2 levels in C57BL/6 mice and FVB mice 20 hours after i.v. injection with hemin (17.5 μmol/kg body weight) or PBS (200 μL/20 g body weight) as control (n = 5–9). (E and F) Absolute number of circulating Ly-6Chi CMo (E) and Ly-6Clo/– PMo (F) in mice at the time point of 3 days after injection, as shown in C (n = 6). (G and H) Absolute numbers of liver Ly-6ChiMHC-II CMo (G) and Ly-6C+MHC-II+ transient macrophages (tMΦ) (H) in mice injected as in C (n = 5–9). The correlation analysis in A and B was determined by Spearman’s Rho. Each symbol represents data from an individual mouse. Data are shown as the mean ± SEM and were compared using a 2-tailed Student’s t test. *P < 0.05.