OBJECTIVE: The bioactive lipid lysophosphatidic acid (LPA) stimulates platelet actin reorganization, adhesion, shape change, and aggregation. LPA is present in blood and exposure or release of LPA after atherosclerotic plaque rupture has been proposed to trigger platelet thrombus formation. METHODS AND RESULTS: In this report, we characterize heterogeneity in LPA responses among individuals. Platelets isolated from approximately 20% of healthy donors consistently failed to aggregate in response to LPA. Our studies indicate that, rather than lacking stimulatory pathways, platelets from "nonresponsive" donors respond to LPA by triggering inhibitory pathway(s) to block platelet aggregation. Consistent with this observation, LPA-induced aggregation could be partially restored to "nonresponsive" platelets by pharmacological inhibition of cAMP generation. LPA "nonresponsiveness" may be related to heightened platelet expression of LPA receptor 4 and PPARgamma. Among 70 patients with stable coronary artery disease (CAD), only 1 (1.4%) was identified as an LPA nonresponder. Moreover, in 33 patients presenting for diagnostic catheterization, CAD was identified as having a bivariate association with platelet LPA responder/nonresponder status. CONCLUSIONS: Platelet LPA signaling may involve stimulatory and inhibitory pathways, with the inhibitory pathway predominating in approximately 20% of individuals. Diseases such as CAD that affect platelet reactivity may attenuate this inhibitory pathway in platelets.
OBJECTIVE: The bioactive lipidlysophosphatidic acid (LPA) stimulates platelet actin reorganization, adhesion, shape change, and aggregation. LPA is present in blood and exposure or release of LPA after atherosclerotic plaque rupture has been proposed to trigger platelet thrombus formation. METHODS AND RESULTS: In this report, we characterize heterogeneity in LPA responses among individuals. Platelets isolated from approximately 20% of healthy donors consistently failed to aggregate in response to LPA. Our studies indicate that, rather than lacking stimulatory pathways, platelets from "nonresponsive" donors respond to LPA by triggering inhibitory pathway(s) to block platelet aggregation. Consistent with this observation, LPA-induced aggregation could be partially restored to "nonresponsive" platelets by pharmacological inhibition of cAMP generation. LPA "nonresponsiveness" may be related to heightened platelet expression of LPA receptor 4 and PPARgamma. Among 70 patients with stable coronary artery disease (CAD), only 1 (1.4%) was identified as an LPA nonresponder. Moreover, in 33 patients presenting for diagnostic catheterization, CAD was identified as having a bivariate association with platelet LPA responder/nonresponder status. CONCLUSIONS: Platelet LPA signaling may involve stimulatory and inhibitory pathways, with the inhibitory pathway predominating in approximately 20% of individuals. Diseases such as CAD that affect platelet reactivity may attenuate this inhibitory pathway in platelets.
Authors: Sumitra Miriyala; Thangaiah Subramanian; Manikandan Panchatcharam; Hongmei Ren; Mark I McDermott; Manjula Sunkara; Tracy Drennan; Susan S Smyth; H Peter Spielmann; Andrew J Morris Journal: J Biol Chem Date: 2010-01-28 Impact factor: 5.157
Authors: Lawrence L Horstman; Wenche Jy; Yeon S Ahn; Robert Zivadinov; Amir H Maghzi; Masoud Etemadifar; J Steven Alexander; Alireza Minagar Journal: J Neuroinflammation Date: 2010-02-03 Impact factor: 8.322