Aquaporin-1 regulates platelet procoagulant membrane dynamics and in vivo thrombosis
Ejaife O. Agbani, Christopher M. Williams, Yong Li, Marion T.J. van den Bosch, Samantha F. Moore, Adele Mauroux, Lorna Hodgson, Alan S. Verkman, Ingeborg Hers, Alastair W. Poole
Ejaife O. Agbani, Christopher M. Williams, Yong Li, Marion T.J. van den Bosch, Samantha F. Moore, Adele Mauroux, Lorna Hodgson, Alan S. Verkman, Ingeborg Hers, Alastair W. Poole
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Research Article Cell biology Hematology

Aquaporin-1 regulates platelet procoagulant membrane dynamics and in vivo thrombosis

Abstract

In response to collagen stimulation, platelets use a coordinated system of fluid entry to undergo membrane ballooning, procoagulant spreading, and microvesiculation. We hypothesized that water entry was mediated by the water channel aquaporin-1 (AQP1) and aimed to determine its role in the platelet procoagulant response and thrombosis. We established that human and mouse platelets express AQP1 and localize to internal tubular membrane structures. However, deletion of AQP1 had minimal effects on collagen-induced platelet granule secretion, aggregation, or membrane ballooning. Conversely, procoagulant spreading, microvesiculation, phosphatidylserine exposure, and clot formation time were significantly diminished. Furthermore, in vivo thrombus formation after FeCl3 injury to carotid arteries was also markedly suppressed in AQP1-null mice, but hemostasis after tail bleeding remained normal. The mechanism involves an AQP1-mediated rapid membrane stretching during procoagulant spreading but not ballooning, leading to calcium entry through mechanosensitive cation channels and a full procoagulant response. We conclude that AQP1 is a major regulator of the platelet procoagulant response, able to modulate coagulation after injury or pathologic stimuli without affecting other platelet functional responses or normal hemostasis. Clinically effective AQP1 inhibitors may therefore represent a novel class of antiprocoagulant antithrombotics.

Authors

Ejaife O. Agbani, Christopher M. Williams, Yong Li, Marion T.J. van den Bosch, Samantha F. Moore, Adele Mauroux, Lorna Hodgson, Alan S. Verkman, Ingeborg Hers, Alastair W. Poole

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Figure 2

Ablation of AQP1 does not alter integrin activation or secretion in mouse platelets.

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Ablation of AQP1 does not alter integrin activation or secretion in mous...
(A) Transmission electron microscopy of AQP1+/+ and AQP1–/– mouse platelets. Representative images are shown, and granule count was determined. (B) Ablation of AQP1 had no effect on platelet-dense granule release. AQP1+/+ and AQP1–/– mouse platelets were stimulated with 0.5 μg/ml collagen-related peptide (CRP), and ATP secretion was assessed by luminometry. Representative trace and graph with levels of secretion (mean ± SEM). Blue and cyan tracings of chart show percentage aggregation and the simultaneous ATP release recorded in AQP1+/+ mouse platelets, respectively. Corresponding tracings for AQP1–/– platelets are shown in light and deep magenta. (C) Washed mouse platelets (5 × 107/ml) from AQP1+/+ or AQP1–/– mice were stimulated for 10 minutes with a range of concentrations of CRP in the presence of 1 mM CaCl2. Integrin αIIbβ3 activation and P selectin exposure were measured by flow cytometry. The geometric mean of the fluorescence intensity was determined, and data are shown as the percentage of maximal control (AQP+/+) response. Curves were fitted by F test. (D) Washed platelets from wild-type (AQP1+/+) or AQP1-null (AQP1–/–) mice allowed to adhere to BSA-coated (2%) or fibrinogen-coated (100 μg/ml) surfaces and stained for actin (FITC-phalloidin). Quantification of spreading (surface area) in box-and-whisker plots. (E) Platelets adherent to BSA were stimulated with 1 U/ml thrombin and spreading analyzed as in D. Statistical significance was determined by 2-way ANOVA and Bonferroni post hoc test (C) and by Wilcoxon signed-rank test (A, B, and E). Scale bar: 500 nm (A); 3 μm (D and E). Data were from 6 independent experiments.