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Flow induces loop-to-beta-hairpin transition on the beta-switch of platelet glycoprotein Ib alpha.


ABSTRACT: Interaction of glycoprotein Ib alpha (GPIb alpha) with von Willebrand factor (VWF) initiates platelet adhesion to injured vascular wall to stop bleeding. A major contact between GPIb alpha and VWF involves the beta-switch region, which is a loop in the unliganded GPIb alpha but switches to a beta-hairpin in the complex structure. Paradoxically, flow enhances rather than impedes GPIb alpha-VWF binding. Gain-of-function mutations (e.g., M239V) in the beta-switch reduce the flow requirement for VWF binding, whereas loss-of-function mutations (e.g., A238V) increase the flow requirement. These phenomena cannot be explained by crystal structures or energy calculations. Herein we demonstrate that the beta-hairpin is unstable without contacting VWF, in that it switches to a loop in free molecular dynamics simulations. Simulations with a novel flow molecular dynamics algorithm show that the loop conformation is unstable in the presence of flow, as it switches to beta-hairpin even without contacting VWF. Compared with the wild-type, it is easier for the M239V mutant but harder for the A238V mutant to switch to beta-hairpin in the presence of flow. These results elucidate the structural basis for the two mutants and suggest a regulatory mechanism by which flow activates GPIb alpha via inducing a loop-to-beta-hairpin conformational transition on the beta-switch, thereby promoting VWF binding.

SUBMITTER: Lou J 

PROVIDER: S-EPMC2544542 | biostudies-literature | 2008 Sep

REPOSITORIES: biostudies-literature

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Flow induces loop-to-beta-hairpin transition on the beta-switch of platelet glycoprotein Ib alpha.

Lou Jizhong J   Zhu Cheng C  

Proceedings of the National Academy of Sciences of the United States of America 20080904 37


Interaction of glycoprotein Ib alpha (GPIb alpha) with von Willebrand factor (VWF) initiates platelet adhesion to injured vascular wall to stop bleeding. A major contact between GPIb alpha and VWF involves the beta-switch region, which is a loop in the unliganded GPIb alpha but switches to a beta-hairpin in the complex structure. Paradoxically, flow enhances rather than impedes GPIb alpha-VWF binding. Gain-of-function mutations (e.g., M239V) in the beta-switch reduce the flow requirement for VWF  ...[more]

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