Abstract
Upon vessel injury, platelets become activated and rapidly reorganize their actin cytoskeleton to adhere to the site of endothelial damage, triggering the formation of a fibrin-rich plug to prevent further blood loss. Inactivation of Pdlim7 provides the new perspective that regulation of actin cytoskeletal changes in platelets is dependent on the encoded PDZ-LIM protein. Loss-of-function of Pdlim7 triggers hypercoagulopathy and causes significant perinatal lethality in mice. Our in vivo and in vitro studies reveal that Pdlim7 is dynamically distributed along actin fibers, and lack of Pdlim7 leads to a marked inability to rearrange the actin cytoskeleton. Specifically, the absence of Pdlim7 prevents platelets from bundling actin fibers into a concentric ring that defines the round spread shape of activated platelets. Similarly, in mouse embryonic fibroblasts, loss of Pdlim7 abolishes the formation of stress fibers needed to adopt the typical elongated fibroblast shape. In addition to revealing a fundamental cell biological role in actin cytoskeletal organization, we also demonstrate a function of Pdlim7 in regulating the cycling between the GTP/GDP-bound states of Arf6. The small GTPase Arf6 is an essential factor required for actin dynamics, cytoskeletal rearrangements, and platelet activation. Consistent with our findings of significantly elevated initial F-actin ratios and subsequent morphological aberrations, loss of Pdlim7 causes a shift in balance towards an increased Arf6-GTP level in resting platelets. These findings identify a new Pdlim7-Arf6 axis controlling actin dynamics and implicate Pdlim7 as a primary endogenous regulator of platelet-dependent hemostasis.
Highlights
The primary role of platelets is to seal off an injured blood vessel and prevent further blood loss
In previous work we have shown that Pdlim7 localizes to vascular smooth muscle but not endothelium [25], and in this study we ruled out any developmental structural problems in the blood vessels between WT and Pdlim7-/- mice (S1 Fig); it is not likely that the excessive clots arise from defects in the doi:10.1371/journal.pone.0164042.g001
Mouse embryonic fibroblast (MEF) generated from Pdlim7-/- embryos demonstrate cytoskeletal problems resulting in a deficiency in forming a cellular axis, in addition to enhanced number and mislocalized focal adhesion sites (S2 Fig)
Summary
The primary role of platelets is to seal off an injured blood vessel and prevent further blood loss. Platelets contain on average seven times more actin by cell volume than other non-muscle cells [1, 3, 4]. This high concentration of actin facilitates the rapid and dramatic actin filament de- and re-polymerization in response to activation [2]. Our group has previously demonstrated that the PDZ-LIM family member Pdlim (Lmp, Enigma) associates with actin [22] and dynamically regulates the subcellular localization and activity of the transcription factor Tbx5 [23,24] during zebrafish heart and fin development [9,10]. We report a new in vivo function for Pdlim in regulating platelet hemostasis
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