Activated signature of antiphospholipid syndrome neutrophils reveals potential therapeutic target
Jason S. Knight, He Meng, Patrick Coit, Srilakshmi Yalavarthi, Gautam Sule, Alex A. Gandhi, Robert C. Grenn, Levi F. Mazza, Ramadan A. Ali, Paul Renauer, Jonathan D. Wren, Paula L. Bockenstedt, Hui Wang, Daniel T. Eitzman, Amr H. Sawalha
Jason S. Knight, He Meng, Patrick Coit, Srilakshmi Yalavarthi, Gautam Sule, Alex A. Gandhi, Robert C. Grenn, Levi F. Mazza, Ramadan A. Ali, Paul Renauer, Jonathan D. Wren, Paula L. Bockenstedt, Hui Wang, Daniel T. Eitzman, Amr H. Sawalha
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Research Article

Activated signature of antiphospholipid syndrome neutrophils reveals potential therapeutic target

Abstract

Antiphospholipid antibodies, present in one-third of lupus patients, increase the risk of thrombosis. We recently reported a key role for neutrophils — neutrophil extracellular traps (NETs), in particular — in the thrombotic events that define antiphospholipid syndrome (APS). To further elucidate the role of neutrophils in APS, we performed a comprehensive transcriptome analysis of neutrophils isolated from patients with primary APS. Moreover, APS-associated venous thrombosis was modeled by treating mice with IgG prepared from APS patients, followed by partial restriction of blood flow through the inferior vena cava. In patients, APS neutrophils demonstrated a proinflammatory signature with overexpression of genes relevant to IFN signaling, cellular defense, and intercellular adhesion. For in vivo studies, we focused on P-selectin glycoprotein ligand-1 (PSGL-1), a key adhesion molecule overexpressed in APS neutrophils. The introduction of APS IgG (as compared with control IgG) markedly potentiated thrombosis in WT mice, but not PSGL-1–KOs. PSGL-1 deficiency was also associated with reduced leukocyte vessel wall adhesion and NET formation. The thrombosis phenotype was restored in PSGL-1–deficient mice by infusion of WT neutrophils, while an anti–PSGL-1 monoclonal antibody inhibited APS IgG–mediated thrombosis in WT mice. PSGL-1 represents a potential therapeutic target in APS.

Authors

Jason S. Knight, He Meng, Patrick Coit, Srilakshmi Yalavarthi, Gautam Sule, Alex A. Gandhi, Robert C. Grenn, Levi F. Mazza, Ramadan A. Ali, Paul Renauer, Jonathan D. Wren, Paula L. Bockenstedt, Hui Wang, Daniel T. Eitzman, Amr H. Sawalha

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Figure 4

PSGL-1–KO mice are protected from antiphospholipid antibody–mediated thrombosis.

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PSGL-1–KO mice are protected from antiphospholipid antibody–mediated thr...
(A) Schematic of flow-restriction model of venous thrombosis. Mice were treated with IgG isolated from either healthy controls or patients with primary APS as described in Methods. The inferior vena cava (IVC) was then narrowed by fixing a ligature around the IVC (using a spacer to ensure uniformity). When a thrombus formed, it was just distal to the stenosis, in the area indicated by the spiral. (B) Thrombus length was measured 6 hours after flow restriction in WT or PSGL-1–/– mice. APS 1 and APS 5 denote IgG from two different patients. The mean for each group is denoted by a horizontal line, while each data point represents an individual mouse; *P < 0.05 adjusted using Kruskal-Wallis test followed by Dunn’s multiple comparisons test. (C) This is a contingency analysis of the data presented in panel B. *P < 0.05 and **P < 0.01 by χ2 test. (D) NET content of APS thrombi (presented in panel B) was assessed by Western blotting for citrullinated histone H3 (Cit-H3) and total histone H3 (the two blots were run in parallel/contemporaneously). Quantification is based on n = 6 per group (3 each from APS 1 and APS 5); ****P < 0.0001 by two-tailed t test.