Abstract
Dengue is the most important arthropod-borne viral disease in humans, with an estimated 3.6 billion people at risk for infection and more than 200 million infections per year. Identification of the cellular receptors for dengue virus (DV), the causative agent of dengue, is important toward understanding the pathogenesis of the disease. Heparan sulfate (HS) has been characterized as a DV receptor in multiple model systems, however the physiological relevance of these findings has been questioned by observations that flaviviruses, including DV, can undergo cell culture adaptation changes resulting in increased binding to HS. It thus remains unclear whether HS is utilized by clinical, non-cell culture-adapted strains of DV. To address this question, herein we describe a set of methodologies using recombinant subviral particles (RSPs) to determine the utilization of HS by clinical strains of DV serotype 1 (DV1). RSPs of clinically isolated strains with low cell culture passage histories were used to study HS interaction. Biochemically characterized RSPs showed dose-dependent binding to immobilized heparin, which could be competed by heparin and HS but not structurally related glycosaminoglycans chondroitin sulfate A and hyaluronic acid. The relevance of heparin and HS biochemical interactions was demonstrated by competition of RSP and DV binding to cells with soluble heparin and HS. Our results demonstrate that clinical strains of DV1 can specifically interact with heparin and HS. Together, these data support the possibility that HS on cell surfaces is utilized in the DV-human infection process.
Highlights
Dengue is a mosquito-borne disease of increasing threat to public health in many tropical and subtropical regions around the world and shows a growing geographical footprint
This study was motivated by the question of whether Heparan sulfate (HS) is used as an attachment factor during infection of clinical strains of dengue virus (DV)
This study utilized recombinant subviral particles (RSPs) technology as a new approach to investigate the use of HS as areceptor for DV
Summary
Dengue is a mosquito-borne disease of increasing threat to public health in many tropical and subtropical regions around the world and shows a growing geographical footprint. With no approved specific treatment or vaccine, dengue is a significant and growing global public health issue (Farrar et al, 2007; Miller, 2010; Simmons et al, 2012). The mature virus particle structure is approximately 50 nm in diameter, with the outer surface composed of 90 gpE homodimers arranged with icosahedral symmetry (Kuhn et al, 2002). During the natural flavivirus infection process, subviral particles (SPs) in addition to virions, are generated (Corver et al, 2000; Russell et al, 1980). SPs are characterized as non-infectious particles generally about 30 nm in diameter containing prM/M and
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