Acute bilirubin ditaurate exposure attenuates ex vivo platelet reactive oxygen species production, granule exocytosis and activation

Evan Noel Pennell; Karl-Heinz Wagner; Sapha Mosawy; Andrew Cameron Bulmer

Redox Biology (Sep 2019)

Acute bilirubin ditaurate exposure attenuates ex vivo platelet reactive oxygen species production, granule exocytosis and activation

Evan Noel Pennell,
Karl-Heinz Wagner,
Sapha Mosawy,
Andrew Cameron Bulmer

Affiliations

Evan Noel Pennell: School of Medical Science, Griffith University, Gold Coast, Australia
Karl-Heinz Wagner: Research Platform Active Aging, Department of Nutritional Science, University of Vienna, Austria; Corresponding author.
Sapha Mosawy: School of Medical Science, Griffith University, Gold Coast, Australia; Endeavour College of Natural Health, Melbourne, Australia
Andrew Cameron Bulmer: School of Medical Science, Griffith University, Gold Coast, Australia; Corresponding author. School of Medical Science - Griffith University, Parklands Drive, Southport, 4215, QLD, Australia.

Journal volume & issue: Vol. 26

Abstract

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Background: Bilirubin, a by-product of haem catabolism, possesses potent endogenous antioxidant and platelet inhibitory properties. These properties may be useful in inhibiting inappropriate platelet activation and ROS production; for example, during storage for transfusion. Given the hydrophobicity of unconjugated bilirubin (UCB), we investigated the acute platelet inhibitory and ROS scavenging ability of a water-soluble bilirubin analogue, bilirubin ditaurate (BRT) on ex vivo platelet function to ascertain its potential suitability for inclusion during platelet storage. Methods: The inhibitory potential of BRT (10–100 μM) was assessed using agonist induced platelet aggregation, dense granule exocytosis and flow cytometric analysis of P-selectin and GPIIb/IIIa expression. ROS production was investigated by analysis of H2DCFDA fluorescence following agonist simulation while mitochondrial ROS production investigated using MitoSOX™ Red. Platelet mitochondrial membrane potential and viability was assessed using TMRE and Zombie Green™ respectively. Results: Our data shows ≤35 μM BRT significantly inhibits both dense and alpha granule exocytosis as measured by ATP release and P-selectin surface expression, respectively. Significant inhibition of GPIIb/IIIa expression was also reported upon ≤35 μM BRT exposure. Furthermore, platelet exposure to ≤10 μM BRT significantly reduces platelet mitochondrial ROS production. Despite the inhibitory effect of BRT, platelet viability, mitochondrial membrane potential and agonist induced aggregation were not perturbed. Conclusions: These data indicate, for the first time, that BRT, a water-soluble bilirubin analogue, inhibits platelet activation and reduces platelet ROS production ex vivo and may, therefore, may be of use in preserving platelet function during storage. Keywords: Platelets, Bilirubin ditaurate, Flow cytometry, MitoSOX™ Red, Superoxide, ROS

Published in Redox Biology

ISSN: 2213-2317 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Medicine: Medicine (General); Science: Biology (General)
Website: http://www.journals.elsevier.com/redox-biology/

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