PLoS Pathogens (May 2017)

Platelet proteome reveals novel pathways of platelet activation and platelet-mediated immunoregulation in dengue.

  • Monique Ramos de Oliveira Trugilho,
  • Eugenio Damaceno Hottz,
  • Giselle Villa Flor Brunoro,
  • André Teixeira-Ferreira,
  • Paulo Costa Carvalho,
  • Gustavo Adolfo Salazar,
  • Guy A Zimmerman,
  • Fernando A Bozza,
  • Patrícia T Bozza,
  • Jonas Perales

DOI
https://doi.org/10.1371/journal.ppat.1006385
Journal volume & issue
Vol. 13, no. 5
p. e1006385

Abstract

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Dengue is the most prevalent human arbovirus disease worldwide. Dengue virus (DENV) infection causes syndromes varying from self-limiting febrile illness to severe dengue. Although dengue pathophysiology is not completely understood, it is widely accepted that increased inflammation plays important roles in dengue pathogenesis. Platelets are blood cells classically known as effectors of hemostasis which have been increasingly recognized to have major immune and inflammatory activities. Nevertheless, the phenotype and effector functions of platelets in dengue pathogenesis are not completely understood. Here we used quantitative proteomics to investigate the protein content of platelets in clinical samples from patients with dengue compared to platelets from healthy donors. Our assays revealed a set of 252 differentially abundant proteins. In silico analyses associated these proteins with key molecular events including platelet activation and inflammatory responses, and with events not previously attributed to platelets during dengue infection including antigen processing and presentation, proteasome activity, and expression of histones. From these results, we conducted functional assays using samples from a larger cohort of patients and demonstrated evidence for platelet activation indicated by P-selectin (CD62P) translocation and secretion of granule-stored chemokines by platelets. In addition, we found evidence that DENV infection triggers HLA class I synthesis and surface expression by a mechanism depending on functional proteasome activity. Furthermore, we demonstrate that cell-free histone H2A released during dengue infection binds to platelets, increasing platelet activation. These findings are consistent with functional importance of HLA class I, proteasome subunits, and histones that we found exclusively in proteome analysis of platelets in samples from dengue patients. Our study provides the first in-depth characterization of the platelet proteome in dengue, and sheds light on new mechanisms of platelet activation and platelet-mediated immune and inflammatory responses.