Seminar Event Detail


Mathematical Biology

Date:  Monday, February 08, 2016
Location:  335 West Hall (12:00 PM to 1:00 PM)

Title:  Microtubule Stability in Blood Platelet Formation and Activation

Abstract:   Terminal platelet production and platelet activation involve considerable cytoskeletal reorganization. The morphological changes brought about by this remodeling are essential for proper platelet function. Recent discoveries suggest that the marginal bands of microtubules found at the equator of platelets and platelet precursors undergo similar instabilities during platelet biogenesis and activation. This buckling instability serves, in one case, as the final differentiator of platelet production, and in the other, as an essential early step in the activation pathway. We aim to understand the mechanical principles governing these processes. To accomplish this, we construct a theoretical framework describing a growing, elastic ring confined within a flexible vesicle. With this method we construct two phase diagrams. The first corresponds to an instability due the curvature elasticity of the membrane, and the second to the same instability, but resulting from the strain energy of the membrane cortex. Next, we develop a coarse-grained Monte Carlo model of a growing marginal band within the platelet/preplatelet cytoskeleton. With this model we observe that the confining membrane suppresses the instability more readily for smaller marginal bands, thereby increasing the stability of platelets compared to their precursors. Our analysis, in combination with experimental observations, indicates that, although marginal band stability is highly sensitive to platelet diameter, this alone is not enough to explain the size of circulating platelets.

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Speaker:  Wylie Stroberg
Institution:  University of Michigan Physiology

Event Organizer:   Victoria Booth    vbooth@umich.edu

 

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