Neutrophil accumulation and NET release contribute to thrombosis in HIT
Kandace Gollomp, Minna Kim, Ian Johnston, Vincent Hayes, John Welsh, Gowthami M. Arepally, Mark Kahn, Michele P. Lambert, Adam Cuker, Douglas B. Cines, Lubica Rauova, M. Anna Kowalska, Mortimer Poncz
Kandace Gollomp, Minna Kim, Ian Johnston, Vincent Hayes, John Welsh, Gowthami M. Arepally, Mark Kahn, Michele P. Lambert, Adam Cuker, Douglas B. Cines, Lubica Rauova, M. Anna Kowalska, Mortimer Poncz
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Research Article Hematology Inflammation

Neutrophil accumulation and NET release contribute to thrombosis in HIT

Abstract

Heparin-induced thrombocytopenia (HIT) is an immune-mediated thrombocytopenic disorder associated with a severe prothrombotic state. We investigated whether neutrophils and neutrophil extracellular traps (NETs) contribute to the development of thrombosis in HIT. Using an endothelialized microfluidic system and a murine passive immunization model, we show that HIT induction leads to increased neutrophil adherence to venous endothelium. In HIT mice, endothelial adherence is enhanced immediately downstream of nascent venous thrombi, after which neutrophils undergo retrograde migration via a CXCR2-dependent mechanism to accumulate into the thrombi. Using a microfluidic system, we found that PF4 binds to NETs, leading them to become compact and DNase resistant. PF4-NET complexes selectively bind HIT antibodies, which further protect them from nuclease digestion. In HIT mice, inhibition of NET formation through Padi4 gene disruption or DNase treatment limited venous thrombus size. PAD4 inactivation did affect arterial thrombi or severity of thrombocytopenia in HIT. Thus, neutrophil activation contributes to the development of venous thrombosis in HIT by enhancing neutrophil-endothelial adhesion and neutrophil clot infiltration, where incorporated PF4-NET-HIT antibody complexes lead to thrombosis propagation. Inhibition of neutrophil endothelial adhesion, prevention of neutrophil chemokine-dependent recruitment of neutrophils to thrombi, or suppression of NET release should be explored as strategies to prevent venous thrombosis in HIT.

Authors

Kandace Gollomp, Minna Kim, Ian Johnston, Vincent Hayes, John Welsh, Gowthami M. Arepally, Mark Kahn, Michele P. Lambert, Adam Cuker, Douglas B. Cines, Lubica Rauova, M. Anna Kowalska, Mortimer Poncz

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Figure 1

Enhanced leukocyte-endothelial adhesion in HIT.

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Enhanced leukocyte-endothelial adhesion in HIT. (A) Calcein-AM–labeled b...
(A) Calcein-AM–labeled blood incubated with KKO (red) or TRA (blue) was infused through HUVEC-lined channels exposed to TNF-α. Representative wide-field image of leukocytes (white) adhering to the endothelium is shown. An arrow indicating direction of flow is included. Scale bar: 100 μ. Image was obtained with an Axio Observer Z1 inverted microscope (original magnification ×10). (B) Leukocyte-endothelial adhesion was quantified for KKO (red) and TRA (blue). Six channels were studied in each TNF-α–exposed arm (lighter colors) and three to five channels were studied in the unexposed arms (darker colors). (C) The final number of adherent leukocytes at 15 minutes is shown as mean ± 1 SD. n = 6 per arm. Comparative analysis was performed by Student’s t test. (D) Representative confocal image of neutrophils rolling in a venule before and after KKO infusion. Neutrophils were stained using anti–Ly-6G F(ab′)2 fragment (green). An arrow indicating direction of flow is included. Scale bar: 20 μ. Images were obtained with an Olympus BX61WI microscope with a ×40/0.8 numeric aperture water-immersion objective lens. (E) Neutrophil adhesion to cremaster arterioles and venules was studied in the HIT murine model prior to and 30 minutes after exposure to KKO. Adhesion was defined as neutrophil immobilization for ≥30 seconds. 6 veins were studied without KKO exposure, 8 veins were studied after KKO injection, and 6 arterioles were studied after KKO injection. Statistical comparison of binding was preformed using a Kruskal-Wallis 1-sided ANOVA. (F) Representative confocal image of neutrophil rolling and adhering to the femoral vein before and 15 minutes after the infusion of KKO. Images are as in D. An arrow indicating direction of flow is included. Scale bar: 20 μ. (G) Neutrophil adhesion to the femoral vein with or without KKO infusion as in F. n = 4 per arm. Statistical comparison was performed by Student’s t test.