Platelet Pathogen Reduction Technologies Alter the MicroRNA Profile of Platelet-Derived Microparticles

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RESEARCH PRODUCT

Platelet Pathogen Reduction Technologies Alter the MicroRNA Profile of Platelet-Derived Microparticles

Idrissa Diallo Idrissa Diallo Abderrahim Benmoussa Abderrahim Benmoussa Jonathan Laugier Jonathan Laugier Abdimajid Osman Abdimajid Osman Walter E. Hitzler Patrick Provost Patrick Provost

subject

0301 basic medicine Amotosalen medicine.medical_specialty Small RNA lcsh:Diseases of the circulatory (Cardiovascular) system mirasol Cardiovascular Medicine 030204 cardiovascular system & hematology 03 medical and health sciences 0302 clinical medicine clinical platelet concentrate Internal medicine microRNA medicine Platelet Hematologi Pathogen Original Research Regulation of gene expression Hematology microRNA pathogen reduction Chemistry clinical platelet concentrate; pathogen reduction; mirasol; intercept; extracellular vesicles; small RNA-sequencing; microRNA Hematology 3. Good health Cell biology small RNA-sequencing 030104 developmental biology lcsh:RC666-701 extracellular vesicles Cardiology and Cardiovascular Medicine Function (biology)intercept

description

Despite improvements in donor screening and increasing efforts to avoid contamination and the spread of pathogens in clinical platelet concentrates (PCs), the risks of transfusion-transmitted infections remain important. Relying on an ultraviolet photo activation system, pathogen reduction technologies (PRTs), such as Intercept and Mirasol, utilize amotosalen, and riboflavin (vitamin B2), respectively, to mediate inactivation of pathogen nucleic acids. Although they are expected to increase the safety and prolong the shelf life of clinical PCs, these PRTs might affect the quality and function of platelets, as recently reported. Upon activation, platelets release microparticles (MPs), which are involved in intercellular communications and regulation of gene expression, thereby mediating critical cellular functions. Here, we have used small RNA sequencing (RNA-Seq) to document the effect of PRT treatment on the microRNA profiles of platelets and derived MPs. PRT treatment did not affect the microRNA profile of platelets. However, we observed a specific loading of certain microRNAs into platelet MPs, which was impaired by treatment with Intercept or its Additive solution (SSP+). Whereas, Intercept had an impact on the microRNA profile of platelet-derived MPs, Mirasol did not impact the microRNA profile of platelets and derived MPs, compared to non-treated control. Considering that platelet MPs are able to transfer their microRNA content to recipient cells, and that this content may exert biological activities, those findings suggest that PRT treatment of clinical PCs may modify the bioactivity of the platelets and MPs to be transfused and argue for further investigations into PRT-induced changes in clinical PC content and function. Funding Agencies|Fonds de Recherche du Quebec-Sante (FRQ-S) [262093]; Canadian Blood Services (CBS)/Canadian Institutes of Health Research (CIHR) Partnership-Blood Utilization and Conservation Initiative, via Health Canada [286,777, 327,364]

year	journal	country	edition	language
2020-03-01	Frontiers in Cardiovascular Medicine

10.3389/fcvm.2020.00031 http://dx.doi.org/10.3389/fcvm.2020.00031