Winding-Up of Fibrin Fibers as a Novel Mechanism of Platelet-Mediated Fiber Compaction

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The paper investigates how platelets retract and compact fibrin fibers, focusing on a newly identified mechanism in which platelets wind up fibrin rather than only pulling on fibers. Using newly developed 2D fiber-retraction assays and complementary approaches including 3D clot-retraction with expansion/electron microscopy, live imaging, and mathematical modeling, the authors report actin–myosin–driven swirling motion that gathers and loops fibrin fibers around platelet “bulbs,” forming tightly packed fibrin structures analogous to those seen in retracted clots. The process is observed as an initial gearwheel actin–myosin pattern associated with extracellular fibrin patches that act as an initiation complex for fiber attachment and rearrangement. The paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract

This study reveals a previously unrecognized mechanism by which platelets retract and compact fibrin fibers. Using a newly developed 2D fiber-retraction assay, we observed an initial “gearwheel” pattern of actin–myosin organization in spread platelets with associated, extracellular fibrin patches that appear to form an initiation complex for fibrin fiber attachment and rearrangement. The final outcome of this process results in two morphologically different platelet populations. Spread platelets with coiled fibers around and above their pseudo-nucleus. Other platelets are only partially spread on the glass surface and are surrounded by tightly packed fibrin fibers around bulbous protrusions (“bulbs”), mirroring the architecture of platelets and adjacent fibers within a retracted clot. Thus, the observed compaction process might also take place during clot retraction in order to reduce clot volume, stiffen the clot and enhance wound repair. Apart from pulling on fibers like on a rope, platelets actively wrap fibrin fibers into compact structures, similar to balls of wool. Besides DNA packaging, this represents a new example of a natural fiber compaction mechanism. Using a combination of 3D clot-retraction and 2D fiber-retraction assays, expansion and electron microscopy, live imaging and mathematical modeling, we show that platelets use an actomyosin-driven motion to gather and loop fibrin fibers around the base of bulbous protrusions. These bulbs form when a platelet becomes trapped between fibrin fibers during 3D clot retraction or 2D fiber-retraction assays. These findings complement and extend earlier models of platelet-mediated fibrin fiber retractions, offering new insight into how platelets mechanically organize fibrin fibers.
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Abstract This study reveals a previously unrecognized mechanism by which platelets retract and compact fibrin fibers. Using a newly developed 2D fiber-retraction assay, we observed an initial “gearwheel” pattern of actin–myosin organization in spread platelets with associated, extracellular fibrin patches that appear to form an initiation complex for fibrin fiber attachment and rearrangement. The final outcome of this process results in platelets surrounded by tightly packed fibrin fibers, mirroring the architecture of platelets and adjacent fibers within a retracted clot. Thus, the observed compaction process might also take place during clot retraction in order to reduce clot volume, stiffen the clot and enhance wound repair. Apart from pulling on fibers like on a rope, platelets actively wind-up fibrin fibers into compact structures, similar to balls of wool. Besides DNA packaging, this represents a new example of a natural fiber compaction mechanism. Using a combination of 3D clot-retraction and 2D fiber-retraction assays, expansion and electron microscopy, live imaging and mathematical modeling, we show that platelets use an actomyosin-driven swirling motion to gather and loop fibrin fibers around the base of bulbous protrusions (“bulbs”). These bulbs form when a platelet becomes trapped between fibrin fibers during clot retraction or 2D fiber-retraction assays. These findings complement and extend earlier models of platelet-mediated fibrin fiber retractions, offering new insight into how platelets mechanically organize fibrin fibers. Competing Interest Statement The authors have declared no competing interest. Footnotes There are no changes to the manuscript. The revision is solely to upload the supplementary videos

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europepmc
last seen: 2026-05-20T01:45:00.602351+00:00
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License: CC-BY-4.0