Background: Preeclampsia is a hypertensive disorder in pregnancy that results in significant adverse maternal and neonatal outcomes. Platelet activation is involved in the pathophysiology of preeclampsia and contributes to the prothrombotic state of the disorder. The mechanisms which initiate and sustain platelet activation in preeclampsia, and how platelets are involved in the pathogenesis of coagulation abnormalities in preeclampsia remains unclear.Aim: To utilise a systematic analysis of Procoagulant Membrane Dynamics (PMD) to assess platelet procoagulation in normotensive pregnancies and preeclampsia, compared to age-matched non-pregnant female controls. Methods: Platelets were assessed using 4D live-cell imaging, immunoassay, flow cytometry and impedance aggregometry. Study participants were healthy, non-diabetic, normotensive, non-pregnant controls, (NP, N=9), normotensive pregnant controls (PC, N=9), and pregnant women with preeclampsia (PEE, N=8). Result: Platelets of preeclamptic patients were significantly activated under basal conditions and showed major remodelling of the open canalicular or dense tubular system. Compared to NP and PC controls, PEE platelets showed a marked decrease in dense granule release, and total exposed phosphatidylserine (PS)-laden surface as well as a decreased whole-blood aggregation in response to high concentration collagen stimulation. Notably, in patients who were pregnant, we visualized in both plasma and peripheral whole blood, freely suspended platelet microthrombi ranging from 10-15 µm radius but were more in PEE participants (~75%) than in the normal pregnant controls (~22%). These microthrombi showed fibrin deposits in between procoagulant platelets with ballooned membranes. Unstimulated PEE platelets showed more than a 2-fold increase in the membrane expression of the facultative glucose transporter GLUT3 which normally reside within the intracellular membrane of alpha granules. Multiplex immunoassay for inflammatory markers confirmed the elevation of previously unreported i-309 and C-TACK inflammatory cytokines in PEE participants. Discussion: We elucidated a platelet-based mechanism of procoagulation in patients with preeclampsia; and demonstrated that platelets were highly activated in the basal, resting state in preeclampsia. Platelet hyperactivation in preeclampsia is complex; there is evidence of procoagulant morphologic membrane changes and p-selectin expression, yet platelets were less able to adhere to exposed collagen to form primary hemostatic plugs. Additionally, novel platelet activation and inflammatory markers such as GLUT3, i-309, and C-TACK cytokines requires further study to understand how they mediate the platelet activation process and the pathophysiology of preeclampsia. Conclusion: Platelet hyperactivation and increased GLUT3 membrane expression may contribute to the progression of preeclampsia, and to the thrombotic and coagulopathic maternal complications of the disease. The platelet activation process itself may provide biomarkers for staging and phenotyping preeclampsia and for the prediction of its severity, clinical manifestations, and disease progression.

Disclosures

Lee:Takeda: Consultancy, Honoraria, Speakers Bureau; Bayer: Honoraria. Poon:Takeda: Other: honoraria for advisory board meeting attendance; Pfizer: Other: honoraria for advisory board meeting attendance; Novo Nordisk: Other: honoraria for advisory board meeting attendance; Roche: Other: honoraria for advisory board meeting attendance; Bayer: Other: honoraria for advisory board meeting attendance, Research Funding; Bioverative/Sanofi: Other: honoraria for advisory board meeting attendance; CSL-Behring: Other: honoraria for advisory board meeting attendance, Research Funding.

Author notes

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Asterisk with author names denotes non-ASH members.

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