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Brian Savage, Enrique Saldívar, Zaverio M Ruggeri  Cell 

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Presentation on theme: "Brian Savage, Enrique Saldívar, Zaverio M Ruggeri  Cell "— Presentation transcript:

1 Initiation of Platelet Adhesion by Arrest onto Fibrinogen or Translocation on von Willebrand Factor 
Brian Savage, Enrique Saldívar, Zaverio M Ruggeri  Cell  Volume 84, Issue 2, Pages (January 1996) DOI: /S (00)

2 Figure 1 Real-Time Observation of Platelet Interaction with Surface-Bound Fibrinogen, Fibrin, and vWF Substrates coated onto glass coverslips were placed in a parallel plate flow chamber that produces a linear variable wall shear rate. Blood containing PPACK as anticoagulant and treated with the fluorescent dye mepacrine for platelet visualization was perfused through the chamber at 37°C. Each single-frame image shown here, corresponding to an area of 8892 μm2, was obtained after perfusion for 5 min at two different wall shear rates, as indicated. The six top panels show blood containing no PGE1. The six bottom panels show blood treated with PGE1 to inhibit platelet activation. Note that surface-bound fibrinogen (left) and fibrin (middle), unlike vWF (right), fail to support platelet attachment at 1500 s−1; note also the presence of platelet aggregates (thrombi) on the vWF surface, but only at the higher shear rate and when platelet activation is not inhibited. These images are representative of the results obtained in six experiments with blood from different donors. Cell  , DOI: ( /S (00) )

3 Figure 2 Effect of Wall Shear Rate on Platelet Interaction with Immobilized Fibrinogen and vWF Blood containing PGE1 to inhibit platelet activation was perfused through the parallel plate flow chamber as described in the legend to Figure 1. (Top) Number of platelets attached to the surface as a function of perfusion time at three different wall shear rates. Note the progressive accumulation of platelets onto fibrinogen (left) as opposed to the attainment of maximal coverage on vWF after approximately 1 min (right). Note also that the extent of coverage is inversely related to the shear rate on fibrinogen but directly related to it on vWF. (Bottom) Number of single platelets attached to immobilized fibrinogen (left) or vWF (right) in an area of 35,567 μm2 after perfusion for 5 min as a function of wall shear rate. The results represent the mean and standard error of six experiments with blood from different donors. Cell  , DOI: ( /S (00) )

4 Figure 3 Effect of Inhibiting αIIbβ3 and GP Ibα Receptor Function on Platelet Interaction with Immobilized Fibrinogen and vWF at Different Wall Shear Rates Blood containing PGE1 to inhibit platelet activation was perfused over immobilized fibrinogen (left) or vWF (right) under conditions described in the legend to Figure 1, and the number of single platelets attached to the surface after 5 min was measured in an area of 35,567 μm2. (Top) Control samples. (Middle) Platelet αIIbβ3 function was inhibited with 100 μg/ml monoclonal antibody LJ-CP8 F(ab′)2. (Bottom) GP Ibα function was inhibited with 5 μM rvWF(445–733), a recombinant vWF A1 domain fragment containing the GP Ib–binding domain. Cell  , DOI: ( /S (00) )

5 Figure 4 Stability of Platelet Attachment to Immobilized Fibrinogen and vWF Blood was perfused through the parallel plate flow chamber under conditions described in the legend to Figure 1. After perfusion for 5 min at a wall shear rate of 50 s−1, consecutive images were captured from videotapes and analyzed for platelet movement (for definition see Experimental Procedures). Results represent the percentage of platelets displaced from their initial position as a function of time relative to the total number of platelets attached to the surface in the first image analyzed. Note that after 40 s, all (100%) platelets have moved on vWF but less than 10% have moved on fibrinogen, regardless of whether platelet activation is inhibited (left) or not (right). Cell  , DOI: ( /S (00) )

6 Figure 5 Time-Lapse Analysis of Platelet Movement on Surface Bound vWF and Fibrinogen The platelet count in blood containing PGE1 was reduced to 5000 per microliter, without affecting other blood cells, by removing platelet-rich plasma after differential centrifugation and replacing it with autologous platelet free plasma. This enabled monitoring the movement of individual platelets when blood was perfused at a wall shear rate of 1500 s−1 over the vWF-coated surface, which would otherwise be saturated with platelets (compare the right panel here with the lower right panel of Figure 1). In the experiments performed with vWF, platelets were treated with 100 μg/ml monoclonal antibody LJ-CP8 F(ab′)2 to block αIIbβ3 receptor function. Platelet-depleted blood was perfused over surface-bound fibrinogen or vWF at the wall shear rates indicated. Images were captured from the videotape over a 5 s interval at a sampling rate of 30 per second and superimposed. Note the translocation on vWF (two right panels) compared with stable attachment to fibrinogen (left panel). Cell  , DOI: ( /S (00) )

7 Figure 6 Effects of Platelet Activation and αIIbβ3 Function on the Stability of Platelet Interaction with Immobilized vWF Blood was perfused through the parallel plate flow chamber under conditions described in the legend to Figure 1, and movement was analyzed as described in the legend to Figure 4 at a wall shear rate of 1500 s−1. (Left) Movement of untreated platelets (no PGE1) after perfusion for 1 or 5 min. (Middle) Movement of PGE1-treated platelets after perfusion for 5 min. (Right) Movement of platelets treated with 100 μg/ml anti-αIIbβ3 antibody LJ-CP8 F(ab′)2 after perfusion for 5 min. Cell  , DOI: ( /S (00) )

8 Figure 7 Frequency Distribution of the Velocity of Platelet Movement on vWF as a Function of Wall Shear Rate Platelet depleted blood containing PGE1, prepared as described in the legend to Figure 5, was perfused over immobilized vWF in the parallel plate flow chamber as described in the legend to Figure 1. After platelet surface coverage had reached equilibrium (between 1 and 2 min; see Figure 2), consecutive images were captured from the videotape, and the average velocity of individual platelets was calculated by measuring the distance traversed over a 5 s interval. The distribution of velocities at each indicated wall shear rate was obtained by measuring 120–200 platelets using data from four separate experiments; results shown are representative of all platelets present on the surface. Cell  , DOI: ( /S (00) )

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