M. Schwarz scite author profile

Platelet activation causes conformational changes of integrin GPIIb/IIIa (alpha(IIb)beta3), resulting in the exposure of its ligand-binding pocket. This provides the unique possibility to design agents that specifically block activated platelets only. We used phage display of single-chain antibody (scFv) libraries in combination with several rounds of depletion/selection to obtain human scFvs that bind specifically to the activated conformation of GPIIb/IIIa. Functional evaluation of these scFv clones revealed that fibrinogen binding to human platelets and platelet aggregation can be effectively inhibited by activation-specific scFvs. In contrast to clinically used GPIIb/IIIa blockers, which are all conformation unspecific, activation-specific GPIIb/IIIa blockers do not induce conformational changes in GPIIb/IIIa or outside-in signaling, as evaluated by ligand-induced binding-site (LIBS) exposure in flow cytometry or P-selectin expression in immunofluorescence microscopy, respectively. In contrast to the conformation-unspecific blocker abciximab, activation-specific scFvs permit cell adhesion and spreading on immobilized fibrinogen, which is mediated by nonactivated GPIIb/IIIa. Mutagenesis studies and computer modeling indicate that exclusive binding of activation-specific scFv is mediated by RXD motifs in the heavy-chain complementary-determining region (CDR) 3 of the antibodies, which in comparison with other antibodies forms an exceptionally extended loop. In vivo experiments in a ferric-chloride thrombosis model of the mouse carotid artery demonstrate similar antithrombotic potency of activation-specific scFv, when compared with the conformation-unspecific blockers tirofiban and eptifibatide. However, in contrast to tirofiban and eptifibatide, bleeding times are not prolonged with the activation-specific scFvs, suggesting lower bleeding risks. In conclusion, activation-specific GPIIb/IIIa blockade via human single-chain antibodies represents a promising novel strategy for antiplatelet therapy.

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A Mechanistic Model for Paradoxical Platelet Activation by Ligand-Mimetic α_IIbβ₃(GPIIb/IIIa) Antagonists

Bassler

Loeffler

Mangin

et al. 2007

ATVB

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Objective-Integrins are attractive therapeutic targets. Inhibition of integrin ␣ IIb ␤ 3 effectively blocks platelet aggregation.However, limitations with intravenous ␣ IIb ␤ 3 antagonists and failure of oral ␣ IIb ␤ 3 antagonists prompted doubts on the current concept of ligand-mimetic integrin blockade. Methods and Results-Evaluating P-selectin expression on platelets by flow cytometry, we report a mechanism of paradoxical platelet activation by ligand-mimetic ␣ IIb ␤ 3 antagonists and define three requirements: (1) Induction of ligand-bound conformation of ␣ IIb ␤ 3 , (2) receptor clustering, (3)

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Heparin Inhibits Ligand Binding to the Leukocyte Integrin Mac-1 (CD11b/CD18)

et al. 1999

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M. Schwarz

Magnetic Resonance Imaging Contrast Agent Targeted Toward Activated Platelets Allows In Vivo Detection of Thrombosis and Monitoring of Thrombolysis

Conformation-Specific Blockade of the Integrin GPIIb/IIIa

A Mechanistic Model for Paradoxical Platelet Activation by Ligand-Mimetic α_IIbβ₃(GPIIb/IIIa) Antagonists

Heparin Inhibits Ligand Binding to the Leukocyte Integrin Mac-1 (CD11b/CD18)

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M. Schwarz

Magnetic Resonance Imaging Contrast Agent Targeted Toward Activated Platelets Allows In Vivo Detection of Thrombosis and Monitoring of Thrombolysis

Conformation-Specific Blockade of the Integrin GPIIb/IIIa

A Mechanistic Model for Paradoxical Platelet Activation by Ligand-Mimetic αIIbβ3(GPIIb/IIIa) Antagonists

Heparin Inhibits Ligand Binding to the Leukocyte Integrin Mac-1 (CD11b/CD18)

Contact Info

Product

Resources

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A Mechanistic Model for Paradoxical Platelet Activation by Ligand-Mimetic α_IIbβ₃(GPIIb/IIIa) Antagonists