Journal
JOURNAL OF THROMBOSIS AND HAEMOSTASIS
Volume 6, Issue 12, Pages 2193-2201Publisher
WILEY
DOI: 10.1111/j.1538-7836.2008.03188.x
Keywords
flow assay; microfluidics; murine platelets; thrombus stability
Categories
Funding
- National Heart, Lung and Blood Institute [R33HL087317, R01HL56621, F32HL090304, T32HL007971]
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Background: Flow chambers allow the ex vivo study of platelet response to defined surfaces at controlled wall shear stresses. However, most assays require 1-10 mL of blood and are poorly suited for murine whole blood experiments. Objective: To measure murine platelet deposition and stability in response to focal zones of prothrombotic stimuli using 100 mu L of whole blood and controlled flow exposure. Methods: Microfluidic methods were used for patterning acid-soluble collagen in 100 mu m x 100 mu m patches and creating flow channels with a volume of 150 nL. Within 1 min of collection into PPACK and fluorescent anti-mouse CD41 mAb, whole blood from normal mice or from mice deficient in the integrin alpha(2) subunit was perfused for 5 min over the patterned collagen. Platelet accumulation was measured at venous and arterial wall shear rates. After 5 min, thrombus stability was measured with a 'shear step-up' to 8000 s(-1). Results: Wild-type murine platelets adhered and aggregated on collagen in a biphasic shear-dependent manner with increased deposition from 100 to 400 s(-1), but decreased deposition at 1000 s(-1). Adhesion to patterned collagen was severely diminished for platelets lacking a functional alpha(2)beta(1) integrin. Those integrin alpha(2)-deficient platelets that did adhere were removed from the surface when challenged to shear step-up. PAR4 agonist (AYPGKF) treatment of the thrombus at 5 min enhanced aggregate stability during the shear step-up. Conclusions: PAR4 signaling enhances aggregate stability by mechanisms independent of other thrombin-dependent pathways such as fibrin formation.
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