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Differential dynamics of early stages of platelet adhesion and spreading on collagen IV- and fibrinogen-coated surfaces [version 2; peer review: 3 approved]

Authors :
Melanie B. Horev
Yishaia Zabary
Revital Zarka
Simona Sorrentino
Ohad Medalia
Assaf Zaritsky
Benjamin Geiger
Author Affiliations :
<relatesTo>1</relatesTo>Department of Immunology, Weizmann Institute of Science, Rehovot, Rehovot, 76100, Israel<br /><relatesTo>2</relatesTo>Department of Software and Information Systems Engineering, Ben-Gurion University of the Negev, Beer-Sheva, 84105, Israel<br /><relatesTo>3</relatesTo>Department of Biochemistry, University of Zurich, Zurich, CH-8057, Switzerland
Source :
F1000Research. 9:ISF-449
Publication Year :
2020
Publisher :
London, UK: F1000 Research Limited, 2020.

Abstract

Background: Upon wound formation, platelets adhere to the neighboring extracellular matrix and spread on it, a process which is critical for physiological wound healing. Multiple external factors, such as the molecular composition of the environment and its mechanical properties, play a key role in this process and direct its speed and outcome. Methods: We combined live cell imaging, quantitative interference reflection microscopy and cryo-electron tomography to characterize, at a single platelet level, the differential spatiotemporal dynamics of the adhesion process to fibrinogen- and collagen IV-functionalized surfaces. Results: Initially, platelets sense both substrates by transient rapid extensions of filopodia. On collagen IV, a short-term phase of filopodial extension is followed by lamellipodia-based spreading. This transition is preceded by the extension of a single or couple of microtubules into the platelet’s periphery and their apparent insertion into the core of the filopodia. On fibrinogen surfaces, the filopodia-to-lamellipodia transition was partial and microtubule extension was not observed leading to limited spreading, which could be restored by manganese or thrombin. Conclusions: Based on these results, we propose that interaction with collagen IV stimulate platelets to extend microtubules to peripheral filopodia, which in turn, enhances filopodial-to-lamellipodial transition and overall lamellipodia-based spreading. Fibrinogen, on the other hand, fails to induce these early microtubule extensions, leading to full lamellipodia spreading in only a fraction of the seeded platelets. We further suggest that activation of integrin αIIbβ3 is essential for filopodial-to-lamellipodial transition, based on the capacity of integrin activators to enhance lamellipodia spreading on fibrinogen.

Details

ISSN :
20461402
Volume :
9
Database :
F1000Research
Journal :
F1000Research
Notes :
Revised Amendments from Version 1 We have addressed the reviewers comments/suggestions and changes were made accordingly. This includes: (i) New versions of Fig. 3 and Fig. 10 (ii) changes to figure legends Fig.2 and 4 (iii) addition to the discussion regarding; integrins, MTs in filopodia, clarification regarding issue with VWF and (iiii) correction of minor mistakes and typos., , [version 2; peer review: 3 approved]
Publication Type :
Academic Journal
Accession number :
edsfor.10.12688.f1000research.23598.2
Document Type :
research-article
Full Text :
https://doi.org/10.12688/f1000research.23598.2