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 6

NETosis studies in the passive immunization Padi4–/– HIT mouse model.

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NETosis studies in the passive immunization Padi4–/– HIT mouse model. (A...
(A) Platelet counts 4 hours after intraperitoneal injection of KKO or TRA in HIT or FcγRIIA+, hPF4–/– (“HIT–”) mice. Padi4 status is indicated. Mean ± 1 SD is shown. Comparative statistical analysis was performed by Kruskal-Wallis 1-way ANOVA. (B) Same as in A, but arteriole thrombus size after KKO infusion in HIT mice with Padi4 status is indicated. Statistical analysis performed with a Student’s t test. (C and D) The number of adherent neutrophils and the platelet volumes in cremaster venule thrombi in HIT mice 60 minutes after laser injury. Individual data points and mean ± 1 SD are shown. 6 injuries were made in 3 TRA-treated HIT mice, 42 injuries were made in 10 KKO-treated Padi4–/– HIT mice, 5 injuries were made in 1 TRA-treated Padi4–/– mouse, 24 injuries were made in 13 KKO-treated HIT mice, and 37 injuries were made in 6 KKO-treated HIT mice following infusion of DNase I. Comparative statistical analysis was performed with a Kruskal-Wallis 1-way ANOVA. (E) Representative confocal images demonstrating the extent of platelet and neutrophil accumulation at the site of cremaster venule thrombi following HIT induction 5 and 60 minutes after the inciting laser injury and infusion of KKO in Padi4–/– mice compared with Padi4+/+ mice with or without DNase. An arrow indicating direction of flow is included. Scale bar: 20 μ. Same microscope and acquisition software as in Figure 1D.