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Reduced platelet forces underlie impaired hemostasis in mouse models of -related disease.
Baumann, Juliane Sachs, Laura Otto, Oliver Schoen, Ingmar Nestler, Peter Zaninetti, Carlo Kenny, Martin Kranz, Ruth von Eysmondt, Hendrik Rodriguez, Johanna
Baumann, Juliane
Sachs, Laura
Otto, Oliver
Schoen, Ingmar
Nestler, Peter
Zaninetti, Carlo
Kenny, Martin
Kranz, Ruth
von Eysmondt, Hendrik
Rodriguez, Johanna
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Date
2022-05-18
Date Submitted
Keywords
tranexamic acid
MYH9-related disease
thrombocytopaenia
MYH9-related disease
thrombocytopaenia
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Start Date
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sciadv.abn2627.pdf
Adobe PDF, 7.92 MB
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Abstract
MYH9-related disease patients with mutations in the contractile protein nonmuscle myosin heavy chain IIA display, among others, macrothrombocytopenia and a mild-to-moderate bleeding tendency. In this study, we used three mouse lines, each with one point mutation in the Myh9 gene at positions 702, 1424, or 1841, to investigate mechanisms underlying the increased bleeding risk. Agonist-induced activation of Myh9 mutant platelets was comparable to controls. However, myosin light chain phosphorylation after activation was reduced in mutant platelets, which displayed altered biophysical characteristics and generated lower adhesion, interaction, and traction forces. Treatment with tranexamic acid restored clot retraction in the presence of tPA and reduced bleeding. We verified our findings from the mutant mice with platelets from patients with the respective mutation. These data suggest that reduced platelet forces lead to an increased bleeding tendency in patients with MYH9-related disease, and treatment with tranexamic acid can improve the hemostatic function.
Language
en
Citation
ISSN
eISSN
2375-2548
ISBN
DOI
10.1126/sciadv.abn2627
PMID
35584211