Increase of Phosphoprotein Expressions in Amotosalen/UVA-Treated Platelet Concentrates

Muret, Charlotte; Crettaz, David; Alberio, Lorenzo; Prudent, Michel

doi:10.1159/000535060

Transfus Med Hemother

2024

DOI: 10.1159/000535060

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Increase of Phosphoprotein Expressions in Amotosalen/UVA-Treated Platelet Concentrates

Charlotte Muret,

David Crettaz,

Lorenzo Alberio

et al.

Abstract: Background: Pathogen inactivation treatment (PIT) has been shown to alter platelet function, phenotype, morphology and to induce a faster aging of platelet concentrates (PCs). Key pieces of information are still missing to understand the impacts of PITs at the cellular level. Objectives: This study investigated the impact of amotosalen/UVA on PCs, from a post-translational modifications (PTM) point of view. Phosphoproteomic analyses we… Show more

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“…Both articles provide evidence that cold storage has consequences for platelet integrity and function. Prudent and colleagues [6] recapture proteome analysis tools to show that also pathogen reduction with amotosalen/UVA treatment has structural consequences for platelets by increasing phosphoprotein expressions indicating in vitro platelet activation. While we know, that this only mildly affects in vivo performance of transfused platelets, it may limit the perspective to further prolong storage time of pathogen-reduced PCs.…”

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A Call to Reinvent Platelet Products

Handtke,

Thiele

2024

Transfus Med Hemother

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mentioning

confidence: 99%

A Call to Reinvent Platelet Products

Handtke,

Thiele

2024

Transfus Med Hemother

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Biotinylation of human platelets is compatible with pathogen inactivation treatment and cold storage for clinical studies

Muret,

Crettaz,

Martin

et al. 2024

Transfusion

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BackgroundProduction of platelet concentrates (PCs) involves several steps that significantly affect platelet behavior. To gain a deeper understanding of how storage conditions impact donor platelet recirculation and functionality post‐transfusion, ex vivo platelet labeling is a feasible approach. However, before pursuing clinical investigations of platelet recirculation and function in humans, we aimed to determine the effects of pathogen inactivation technology (PIT) and storage conditions (4°C vs. room temperature [RT]) on phenotype and function of biotinylated platelets compared to conventional PIT PCs for transfusion.MethodsNine PCs were prepared in 61% additive solution from 45 buffy coats (five buffy coats each). A pool‐and‐split of three units was used to prepare three equivalent PCs: two labeled with biotin and stored at RT or 4°C, and one without labeling and stored at RT. All PCs were then treated by PIT (amotosalen/UVA) and stored for 14 days. Labeling efficiency, platelet concentration, metabolic parameters, aggregation response (ADP, collagen, co‐aggregation with epinephrine), and platelet phenotype (CD42b, CD62‐P, phosphatidylserine) at the basal stage and upon stimulation (ADP or TRAP‐6) were performed.ResultsLabeling efficiency of PIT and 4°C PCs was stable over 14 days of storage. Differences in platelet function and phenotype were mainly due to the storage temperature and not the biotinylation process. Phenotypes at baseline or after stimulation were equivalent in biotin‐positive and biotin‐negative platelets.ConclusionBiotin‐labeled platelets can effectively enable investigation of the effects of PIT and storage temperature for clinical studies. This method shows great potential for improving platelet transfusion knowledge.

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Increase of Phosphoprotein Expressions in Amotosalen/UVA-Treated Platelet Concentrates

Cited by 2 publications

References 43 publications

A Call to Reinvent Platelet Products

A Call to Reinvent Platelet Products

Biotinylation of human platelets is compatible with pathogen inactivation treatment and cold storage for clinical studies

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