Artificial MiRNA Knockdown of Platelet Glycoprotein lbα: A Tool for Platelet Gene Silencing
Tim Thijs, Katleen Broos, Stefaan J. Soenen, Aline Vandenbulcke, Karen Vanhoorelbeke, Hans Deckmyn, Isabelle I. Salles-Crawley

TL;DR
This paper presents a method using artificial miRNAs to silence the GPIbα protein in platelet progenitor cells, offering a new tool for studying platelet function.
Contribution
The novel use of artificial miRNAs for platelet gene silencing in megakaryoblastic cells is demonstrated.
Findings
Artificial miRNAs achieved 72% GPIbα knockdown in CHO GPIb-IX cells.
Transfected CHO cells showed reduced aggregation ability compared to controls.
GPIbα silencing in DAMI cells led to morphological changes linked to actin organization.
Abstract
In recent years, candidate genes and proteins implicated in platelet function have been identified by various genomic approaches. To elucidate their exact role, we aimed to develop a method to apply miRNA interference in platelet progenitor cells by using GPIbα as a proof-of-concept target protein. After in silico and in vitro screening of siRNAs targeting GPIbα (siGPIBAs), we developed artificial miRNAs (miGPIBAs), which were tested in CHO cells stably expressing GPIb-IX complex and megakaryoblastic DAMI cells. Introduction of siGPIBAs in CHO GPIb-IX cells resulted in 44 to 75% and up to 80% knockdown of GPIbα expression using single or combined siRNAs, respectively. Conversion of siGPIBAs to miGPIBAs resulted in reduced silencing efficiency, which could however be circumvented by tandem integration of two hairpins targeting different regions of GPIBA mRNA where 72% GPIbα knockdown was…
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Taxonomy
TopicsPlatelet Disorders and Treatments · Cell Adhesion Molecules Research · Blood properties and coagulation
