INTRODUCTION: A polymorphism (-14 A/T) affecting PAR1 expression on the platelet surface has recently been identified. A two-fold variation in receptor density, which correlated with the platelet response to PAR1-activating peptide (PAR1-AP), has been reported. MATERIALS AND METHODS: We used flow cytometry to measure the correlation between the number of PAR1 receptors and platelet activation. We also measured the changes in receptor exposure after platelet activation with PAR1-AP, ADP, PAR4-AP or a collagen-related peptide (CRP). RESULTS: In our study, the PAR1 receptor number varied almost four-fold, from 547 to 2063 copies/platelet (mean+/-S.D. 1276+/-320, n=70). The number of PAR1 receptors on resting platelets correlated to platelet fibrinogen binding and P-selectin expression following platelet activation with PAR1-AP (r(2)=0.30, p<0.01 and r(2)=0.15, p<0.05, respectively, n=36). The correlation was not improved by exclusion of the ADP-component from the PAR1-AP-induced response. We found a trend, but no statistically significant differences in PAR1 receptor number and platelet reactivity between A/A individuals and T/A or T/T individuals. Ex vivo activation with PAR1-AP decreased PAR1 surface exposure to 71+/-19% of the exposure on resting platelets (mean+/-S.D., p<0.01, n=19), while activation by ADP, PAR4-AP or CRP significantly increased the exposure, to 151+/-27%, 120+/-21% and 138+/-25%, respectively (n=11, 11 and 10). CONCLUSIONS: This study shows a large variation in PAR1 receptor number in healthy individuals, a variation correlated to the platelet activation response. We found a significant reduction in PAR1 surface exposure after adding PAR1-AP, while activation with ADP, PAR4-AP or CRP increased the exposure.
INTRODUCTION: A polymorphism (-14 A/T) affecting PAR1 expression on the platelet surface has recently been identified. A two-fold variation in receptor density, which correlated with the platelet response to PAR1-activating peptide (PAR1-AP), has been reported. MATERIALS AND METHODS: We used flow cytometry to measure the correlation between the number of PAR1 receptors and platelet activation. We also measured the changes in receptor exposure after platelet activation with PAR1-AP, ADP, PAR4-AP or a collagen-related peptide (CRP). RESULTS: In our study, the PAR1 receptor number varied almost four-fold, from 547 to 2063 copies/platelet (mean+/-S.D. 1276+/-320, n=70). The number of PAR1 receptors on resting platelets correlated to platelet fibrinogen binding and P-selectin expression following platelet activation with PAR1-AP (r(2)=0.30, p<0.01 and r(2)=0.15, p<0.05, respectively, n=36). The correlation was not improved by exclusion of the ADP-component from the PAR1-AP-induced response. We found a trend, but no statistically significant differences in PAR1 receptor number and platelet reactivity between A/A individuals and T/A or T/T individuals. Ex vivo activation with PAR1-AP decreased PAR1 surface exposure to 71+/-19% of the exposure on resting platelets (mean+/-S.D., p<0.01, n=19), while activation by ADP, PAR4-AP or CRP significantly increased the exposure, to 151+/-27%, 120+/-21% and 138+/-25%, respectively (n=11, 11 and 10). CONCLUSIONS: This study shows a large variation in PAR1 receptor number in healthy individuals, a variation correlated to the platelet activation response. We found a significant reduction in PAR1 surface exposure after adding PAR1-AP, while activation with ADP, PAR4-AP or CRP increased the exposure.
Authors: Jochen D Muehlschlegel; Tjörvi E Perry; Kuang-Yu Liu; Amanda A Fox; Shane A Smith; Peter Lichtner; Charles D Collard; Stanton K Shernan; John H Hartwig; Simon C Body; Karin M Hoffmeister Journal: Am J Hematol Date: 2012-01-07 Impact factor: 10.047
Authors: Aristotelis Chatziioannou; Panagiotis Georgiadis; Dennie G Hebels; Irene Liampa; Ioannis Valavanis; Ingvar A Bergdahl; Anders Johansson; Domenico Palli; Marc Chadeau-Hyam; Alexandros P Siskos; Hector Keun; Maria Botsivali; Theo M C M de Kok; Almudena Espín Pérez; Jos C S Kleinjans; Paolo Vineis; Soterios A Kyrtopoulos Journal: Sci Rep Date: 2017-02-22 Impact factor: 4.379
Authors: Jacqueline Stockley; Shaista P Nisar; Vincenzo C Leo; Essa Sabi; Margaret R Cunningham; Jeroen C Eikenboom; Stefan Lethagen; Reinhard Schneppenheim; Anne C Goodeve; Steve P Watson; Stuart J Mundell; Martina E Daly Journal: PLoS One Date: 2015-12-02 Impact factor: 3.240