Transcriptome Analysis of Reticulated Platelets Reveals a Prothrombotic Profile

Overview

Journal Thromb Haemost

Publisher Thieme

Specialties Cardiology & Vascular Diseases
Hematology

Date 2019 Sep 2

PMID 31473989

Citations 26

Authors

Dario Bongiovanni

Gianluca Santamaria

Melissa Klug

Donato Santovito

Arianna Felicetta

Michael Hristov

Moritz von Scheidt

Maria Aslani

Javier Cibella

Christian Weber

Alessandra Moretti

Karl-Ludwig Laugwitz

Clelia Peano

Isabell Bernlochner

Affiliations

Soon will be listed here.

Abstract

Reticulated platelets (RPs) are larger, hyperreactive platelets that contain significantly more ribonucleic acid (RNA) compared with mature platelets (MPs). High levels of RPs in peripheral blood are predictors of an insufficient response to dual antiplatelet therapy in cardiovascular patients and of adverse cardiovascular events. However, the mechanisms underlying these correlations remain widely unknown and the biology of RPs has not been investigated yet. Here, we compared for the first time the transcriptomic profiles of RPs and MPs isolated from peripheral blood of healthy donors. Total RNA sequencing revealed 1,744 differentially expressed genes (670 downregulated, 1,074 upregulated) in RPs compared with MPs. In particular, transcripts for the collagen receptor , thromboxane receptor A2 (), thrombin receptor (), and adenosine triphosphate receptors , , and (both involved in calcium signaling) were significantly upregulated in RPs, whereas several RNA regulators as the ribonuclease , the RISC-component , and the splicing factor were downregulated in RPs. Gene ontology analysis revealed an enrichment of relevant biological categories in RPs including platelet activation and blood coagulation. Gene Set Enrichment Analysis showed an overrepresentation of several platelet activation pathways like thrombin, thromboxane, and glycoprotein IIb/IIIa signaling in RPs. Small-RNA sequencing reported 9 micro-RNAs significantly downregulated in RPs with targets involved in platelet reactivity. Our data show for the first time an enrichment of several prothrombotic transcripts in RPs providing a first biological explanation for their hyperreactive phenotype.

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