Lung vaso-occlusion in sickle cell disease mediated by arteriolar neutrophil-platelet microemboli
Margaret F. Bennewitz, Maritza A. Jimenez, Ravi Vats, Egemen Tutuncuoglu, Jude Jonassaint, Gregory J. Kato, Mark T. Gladwin, Prithu Sundd
Margaret F. Bennewitz, Maritza A. Jimenez, Ravi Vats, Egemen Tutuncuoglu, Jude Jonassaint, Gregory J. Kato, Mark T. Gladwin, Prithu Sundd
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Research Article Hematology Inflammation

Lung vaso-occlusion in sickle cell disease mediated by arteriolar neutrophil-platelet microemboli

Abstract

In patients with sickle cell disease (SCD), the polymerization of intraerythrocytic hemoglobin S promotes downstream vaso-occlusive events in the microvasculature. While vaso-occlusion is known to occur in the lung, often in the context of systemic vaso-occlusive crisis and the acute chest syndrome, the pathophysiological mechanisms that incite lung injury are unknown. We used intravital microscopy of the lung in transgenic humanized SCD mice to monitor acute vaso-occlusive events following an acute dose of systemic lipopolysaccharide sufficient to trigger events in SCD but not control mice. We observed cellular microembolism of precapillary pulmonary arteriolar bottlenecks by neutrophil-platelet aggregates. Blood from SCD patients was next studied under flow in an in vitro microfluidic system. Similar to the pulmonary circulation, circulating platelets nucleated around arrested neutrophils, translating to a greater number and duration of neutrophil-platelet interactions compared with normal human blood. Inhibition of platelet P-selectin with function-blocking antibody attenuated the neutrophil-platelet interactions in SCD patient blood in vitro and resolved pulmonary arteriole microembolism in SCD mice in vivo. These results establish the relevance of neutrophil-platelet aggregate formation in lung arterioles in promoting lung vaso-occlusion in SCD and highlight the therapeutic potential of targeting platelet adhesion molecules to prevent acute chest syndrome.

Authors

Margaret F. Bennewitz, Maritza A. Jimenez, Ravi Vats, Egemen Tutuncuoglu, Jude Jonassaint, Gregory J. Kato, Mark T. Gladwin, Prithu Sundd

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Figure 7

P-selectin blockade ameliorates LPS-induced pulmonary arteriole microembolism in SCD mice.

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P-selectin blockade ameliorates LPS-induced pulmonary arteriole microemb...
Sickle cell disease (SCD) mice were injected intravenously (IV) with 0.1 μg/kg LPS (n = 5 mice; 48 fields of view [FOVs]) or 0.1 μg/kg IV LPS + anti–P-selectin mAb Fab fragments (n = 3 mice; 43 FOVs). Arterioles were imaged 2–2.5 hours after IV LPS or IV LPS + anti–P-selectin Fab fragments using quantitative fluorescence intravital lung microscopy (qFILM). (A and B) qFILM images of 3 FOVs from a SCD mouse administered IV LPS + anti–P-selectin Fab fragments. (A) A majority (58%) of FOVs show no pulmonary vaso-occlusions. Supplemental Video 20 shows the FOV in A (right panel). (B) Anti–P-selectin Fab fragments attenuated LPS-induced arteriolar pulmonary vaso-occlusions. A small aggregate of neutrophils (red) and platelets (green) blocks the arteriolar bottleneck (white dotted circle). Magnified view of vaso-occlusion is shown to the right. Pulmonary microcirculation is shown in purple. Asterisks denote alveoli. White arrows mark the direction of blood flow. Average diameter of arterioles in A and B: 30 ± 2 μm. Scale bars: 20 μm. (CH) Data from SCD mice administered 0.1 μg/kg IV LPS are repeated from Figure 1. (C) Number of pulmonary vaso-occlusions (PVO) per FOV for SCD mice administered IV LPS (black circles) or IV LPS + anti–P-selectin Fab fragments (white circles). Size of FOV: ~67,600 μm2. (D) Percent FOVs with pulmonary vaso-occlusions. (E) Number of pulmonary vaso-occlusions per FOV classified by cellular composition. (F) qFILM images of one FOV at 3 different time points in a SCD mouse administered IV LPS + anti–P-selectin Fab fragments. A neutrophil-platelet aggregate (white dotted circles) arrives and disintegrates within a pulmonary arteriole. (G) Magnified view of neutrophil-platelet aggregate in F. t = 0 s shows the arteriole before the aggregate arrives. At t = 4 seconds, the neutrophil-platelet aggregate appears and quickly enters the arteriolar bottleneck. By t = 5 seconds, one neutrophil has detached and traversed farther into the capillary. Diameter of arteriole in F and G: 28 μm. Scale bars: 20 μm. Supplemental Video 21 shows the FOV in G. (H) Number of pulmonary vaso-occlusions per FOV with area <1,000 μm2 or >1,000 μm2. Average number of pulmonary vaso-occlusions per FOV, area of pulmonary vaso-occlusions, and cellular composition of pulmonary vaso-occlusions were compared using unpaired t tests. Percent FOVs with pulmonary vaso-occlusions were compared using 4-fold table analyses with Bonferroni χ2 statistics. Data represent mean ± SEM. *P < 0.05 for 0.1 μg/kg IV LPS SCD vs. 0.1 μg/kg IV LPS + anti-PFab SCD.