To cite this article: Neeves KB, Maloney SF, Fong KP, Schmaier AA, Kahn ML, Brass LF, Diamond SL. Microfluidic focal thrombosis model for measuring murine platelet deposition and stability: PAR4 signaling enhances shear-resistance of platelet aggregates. J Thromb Haemost 2008; 6:Summary. 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 lL of whole blood and controlled flow exposure. Methods: Microfluidic methods were used for patterning acid-soluble collagen in 100 lm · 100 lm 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 a 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 Ôshear step-upÕ to 8000 s )1. Results: Wild-type murine platelets adhered and aggregated on collagen in a biphasic sheardependent 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 a 2 b 1 integrin. Those integrin a 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 thrombindependent pathways such as fibrin formation.
Fetal CD34+ CD38+ cells have recently been found to persist in maternal peripheral blood for many years after pregnancy. CD34+ CD38+ cells are progenitor cells that can differentiate into mature immune-competent cells. We asked whether long-term fetal microchimerism occurs in T lymphocyte, B lymphocyte, monocyte, and natural-killer cell populations of previously pregnant women. We targeted women with sons and used polymerase chain reaction for a Y-chromosome–specific sequence to test DNA extracted from peripheral blood mononuclear cells (PBMC) and from CD3, CD19, CD14, and CD56/16 sorted subsets. We also asked whether persistent microchimerism might contribute to subsequent autoimmune disease in the mother and included women with the autoimmune disease scleroderma. Scleroderma has a peak incidence in women after childbearing years and has clinical similarities to chronic graft-versus-host disease that occurs after allogeneic hematopoietic stem-cell transplantation, known to involve chimerism. Sixty-eight parous women were studied for male DNA in PBMC and 20 for PBMC subsets. Microchimerism was found in PBMC from 33% (16 of 48) of healthy women and 60% (12 of 20) women with scleroderma, P = .046. Microchimerism was found in some women in CD3, CD19, CD14, and CD56/16 subsets including up to 38 years after pregnancy. Microchimerism in PBMC subsets was not appreciably more frequent in scleroderma patients than in healthy controls. Overall, microchimerism was found in CD3, CD19, and CD14 subsets in approximately one third of women and in CD56/16 in one half of women. HLA typing of mothers and sons indicated that HLA compatibility was not a requirement for persistent microchimerism in PBMC subsets. Fetal microchimerism in the face of HLA disparity implies that specific maternal immunoregulatory pathways exist that permit persistence but prevent effector function of these cells in normal women. Although microchimerism in PBMC was more frequent in women with scleroderma than healthy controls additional studies will be necessary to determine whether microchimerism plays a role in the pathogenesis of this or other autoimmune diseases.
Two major pathways contribute to Rasproximate-1-mediated integrin activation in stimulated platelets. Calcium and diacyglycerol-regulated guanine nucleotide exchange factor I (CalDAG-GEFI, Ras-GRP2) mediates the rapid but reversible activation of integrin ␣IIb3, while the adenosine diphosphate receptor P2Y12, the target for antiplatelet drugs like clopidogrel, facilitates delayed but sustained integrin activation. To establish CalDAG-GEFI as a target for antiplatelet therapy, we compared how each pathway contributes to thrombosis and hemostasis in mice. Ex vivo, thrombus formation at arterial or venous shear rates was markedly reduced in CalDAG-GEFI ؊/؊ blood, even in the presence of exogenous adenosine diphosphate and thromboxane A 2 . In vivo, thrombosis was virtually abolished in arterioles and arteries of CalDAG-GEFI ؊/؊ mice, while small, hemostatically active thrombi formed in venules. Specific deletion of the C1-like domain of CalDAG-GEFI in circulating platelets also led to protection from thrombus formation at arterial flow conditions, while it only marginally increased blood loss in mice. In comparison, thrombi in the micro-and macrovasculature of clopidogrel-treated wild-type mice grew rapidly and frequently embolized but were hemostatically inactive. Together, these data suggest that inhibition of the catalytic or the C1 regulatory domain in CalDAG-GEFI will provide strong protection from atherothrombotic complications while maintaining a better safety profile than P2Y12 inhibitors like clopidogrel. (Blood. 2011; 117(3):1005-1013) IntroductionArterial thrombosis in the coronary or cerebrovascular circulation is the principal pathological process underlying acute coronary syndrome and ischemic stroke, which together represent the leading cause of morbidity and mortality in industrialized countries. 1 Platelet activation is a central event in the pathogenesis of arterial thrombosis. Currently, the most powerful antiplatelet agents used in the clinic are inhibitors of cyclooxygenase-1 (acetylsalicylic acid, aspirin), the platelet adenosine diphosphate (ADP) receptor P2Y12 (eg, clopiodgrel or Plavix), and integrin ␣IIb3 (eg, abciximab or Reopro). 2,3 These agents have all been shown to improve clinical outcomes in large-scale randomized controlled trials. However, all therapies have limitations that include uncertainty about optimal dosing, questions about resistance, and issues regarding the lack of reversibility in situations where bleeding risks are high.␣IIb3, the platelet fibrinogen receptor, is the best-studied member of the integrin family. 4,5 Like most integrins, especially those regulating adhesion and trafficking of blood cells, it is expressed in a low-affinity state on resting platelets. Engagement of agonist receptors on the platelet surface triggers intracellular signaling events, which lead to inside-out activation of ␣IIb3. Deficiency in ␣IIb3 completely inhibits the ability of platelets to aggregate and adhere to sites of injury. 6,7 Consequently, inhibitors to integrin ␣IIb3 show...
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