Your search keyword '"Schaff M"' showing total 3 results

1. Integrin α6β1 is the main receptor for vascular laminins and plays a role in platelet adhesion, activation, and arterial thrombosis.

Author

Schaff M, Tang C, Maurer E, Bourdon C, Receveur N, Eckly A, Hechler B, Arnold C, de Arcangelis A, Nieswandt B, Denis CV, Lefebvre O, Georges-Labouesse E, Gachet C, Lanza F, and Mangin PH

Subjects

Animals, Aorta metabolism, Aorta pathology, Carotid Arteries metabolism, Carotid Arteries pathology, Humans, Integrin alpha6beta1 physiology, Laminin physiology, Mesenteric Arteries metabolism, Mesenteric Arteries pathology, Mice, Mice, 129 Strain, Mice, Inbred C57BL, Mice, Knockout, Risk Factors, Thrombosis pathology, Cell Adhesion physiology, Integrin alpha6beta1 metabolism, Platelet Activation physiology, Platelet Adhesiveness physiology, Thrombosis metabolism

Abstract

Background: Laminins are major components of basement membranes, well located to interact with platelets upon vascular injury. Laminin-111 (α1β1γ1) is known to support platelet adhesion but is absent from most blood vessels, which contain isoforms with the α2, α4, or α5 chain. Whether vascular laminins support platelet adhesion and activation and the significance of these interactions in hemostasis and thrombosis remain unknown., Methods and Results: Using an in vitro flow assay, we show that laminin-411 (α4β1γ1), laminin-511 (α5β1γ1), and laminin-521 (α5β2γ1), but not laminin-211 (α2β1γ1), allow efficient platelet adhesion and activation across a wide range of arterial wall shear rates. Adhesion was critically dependent on integrin α6β1 and the glycoprotein Ib-IX complex, which binds to plasmatic von Willebrand factor adsorbed on laminins. Glycoprotein VI did not participate in the adhesive process but mediated platelet activation induced by α5-containing laminins. To address the significance of platelet/laminin interactions in vivo, we developed a platelet-specific knockout of integrin α6. Platelets from these mice failed to adhere to laminin-411, laminin-511, and laminin-521 but responded normally to a series of agonists. α6β1-Deficient mice presented a marked decrease in arterial thrombosis in 3 models of injury of the carotid, aorta, and mesenteric arterioles. The tail bleeding time and blood loss remained unaltered, indicating normal hemostasis., Conclusions: This study reveals an unsuspected important contribution of laminins to thrombus formation in vivo and suggests that targeting their main receptor, integrin α6β1, could represent an alternative antithrombotic strategy with a potentially low bleeding risk.

Published

2013

2. Targeting platelet GPIbβ reduces platelet adhesion, GPIb signaling and thrombin generation and prevents arterial thrombosis.

Author

Maurer E, Tang C, Schaff M, Bourdon C, Receveur N, Ravanat C, Eckly A, Hechler B, Gachet C, Lanza F, and Mangin PH

Subjects

Animals, Arterial Occlusive Diseases physiopathology, Bleeding Time, Cell Adhesion physiology, Cricetinae, Disease Models, Animal, Humans, Mice, Platelet Adhesiveness genetics, Platelet Glycoprotein GPIb-IX Complex genetics, Random Allocation, Rats, Sensitivity and Specificity, Signal Transduction, Sodium-Phosphate Cotransporter Proteins, Type III genetics, Thrombosis physiopathology, Arterial Occlusive Diseases prevention & control, Platelet Adhesiveness physiology, Platelet Glycoprotein GPIb-IX Complex metabolism, Sodium-Phosphate Cotransporter Proteins, Type III metabolism, Thrombosis prevention & control, von Willebrand Factor metabolism

Abstract

Objective: The glycoprotein (GP) Ib-V-IX complex regulates the adhesion, activation, and procoagulant activity of platelets. We previously reported that RAM.1, a rat monoclonal antibody directed against the extracellular domain of mouse GPIbβ, diminished adhesion of platelets and chinese hamster ovary cells transfected with the human GPIb-IX complex to von Willebrand factor under flow conditions. Here, we further evaluated the functional importance of GPIbβ by studying the impact of RAM.1 on GPIb-mediated platelet responses and in vitro and in vivo thrombus formation., Approach and Results: We show that RAM.1 dramatically reduced GPIb-mediated filopodia extension of chinese hamster ovary GPIb-IX cells after adhesion to von Willebrand factor. RAM.1 also reduced filopodia extension and GPIb-mediated Ca(2+) signaling after adhesion of mouse platelets to von Willebrand factor. RAM.1 inhibited thrombin generation in platelet-rich plasma without impairing phosphatidylserine exposure. In addition, RAM.1 reduced thrombus formation after perfusion of mouse whole blood over collagen in a shear-dependent manner. This effect was confirmed in vivo, because injection of F(ab)'2 fragments of RAM.1 diminished thrombus formation induced by laser beam injury of mesenteric arterioles and forceps injury of the abdominal aorta. In contrast, RAM.1 F(ab)'2 did not prolong the tail-bleeding time or increase the volume of blood lost., Conclusions: These findings are the first evidence that targeting a subunit other than GPIbα can lead to an antithrombotic effect via the GPIb-V-IX complex. This could represent an alternative way to reduce thrombus formation with a minor impact on hemostasis.

Published

2013

3. Novel function of tenascin-C, a matrix protein relevant to atherosclerosis, in platelet recruitment and activation under flow.

Author

Schaff M, Receveur N, Bourdon C, Wurtz V, Denis CV, Orend G, Gachet C, Lanza F, and Mangin PH

Subjects

Atherosclerosis physiopathology, Calcium blood, Cell Shape, Fibronectins metabolism, Humans, Integrin alpha2 blood, Integrin alpha2beta1 blood, Integrin beta3 blood, Membrane Glycoproteins blood, Microscopy, Video, Platelet Adhesiveness, Platelet Glycoprotein GPIb-IX Complex metabolism, Regional Blood Flow, Stress, Mechanical, Time Factors, von Willebrand Factor metabolism, Atherosclerosis blood, Blood Platelets metabolism, Platelet Activation, Tenascin metabolism

Abstract

Objective: The identification of platelet-reactive proteins exclusively present in atherosclerotic plaques could provide interesting targets for effective and safe antithrombotic strategies. In this context, we explored platelet adhesion and activation to tenascin-C (TN-C), a matrix protein preferentially found within atheroma., Methods and Results: We show that platelets efficiently adhere to TN-C under both static and flow conditions. Videomicroscopy revealed a unique behavior under flow, with platelets exhibiting stationary adhesion to TN-C; in contrast, platelets rolled over von Willebrand factor and detached from fibrinogen. Platelet interaction with TN-C was predominantly supported by integrin α(2)β(1) under static conditions, whereas under high shear, it was dependent on both the α(2)β(1) integrin and the glycoprotein Ib-IX complex. Integrin α(IIb)β(3) appeared to play a secondary role but only at low shear rates. The glycoprotein Ib-IX-dependent interaction was indirect, relying on von Willebrand factor, and increased as a function of wall shear rate. Von Willebrand factor bound directly to TN-C, as shown by ELISA and coimmunoprecipitation, suggesting that it acts as a bridge between TN-C and platelets. The adhesion of platelets to TN-C triggered their activation, as demonstrated by a shape change and increases in intracellular calcium level., Conclusions: This study provides evidence that TN-C serves as a novel adhesive matrix for platelets in a context that is relevant to atherothrombosis.

Published

2011