Novel functional hepatitis C virus glycoprotein isolates identified using an optimized viral pseudotype entry assay

Urbanowicz, Richard A.; McClure, C. Patrick; King, Barnabas; Mason, Christopher P.; Ball, Jonathan K.; Tarr, Alexander W.

doi:10.1099/jgv.0.000537

Cited by 33 publications

(56 citation statements)

References 52 publications

(84 reference statements)

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“…To determine whether these lineage-specific amino acid substitutions resulted in more efficient human cell infection, and hence increased fitness, we generated a panel of GP mutants based on the earliest sampled Makona isolate, Kissidougou-C15 (GenBank: KJ660346, sampled from Guinea in March 2014; Figure 2), and tested their ability to support entry into a range of human and bat cell lines using a lentiviral pseudotype assay (Urbanowicz et al., 2016). Although variants from both lineages A and B reached higher infectivity in human cells than Kissidougou-C15 (Figure 3), the A82V change appears to have set the GP on separate evolutionary pathways, as we observed distinct sets of additional amino acid changes in each lineage that increased entry efficacy in human cells.…”

Section: Resultsmentioning

confidence: 99%

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Human Adaptation of Ebola Virus during the West African Outbreak

Urbanowicz

McClure

Sakuntabhai

et al. 2016

Cell

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192

188

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SummaryThe 2013–2016 outbreak of Ebola virus (EBOV) in West Africa was the largest recorded. It began following the cross-species transmission of EBOV from an animal reservoir, most likely bats, into humans, with phylogenetic analysis revealing the co-circulation of several viral lineages. We hypothesized that this prolonged human circulation led to genomic changes that increased viral transmissibility in humans. We generated a synthetic glycoprotein (GP) construct based on the earliest reported isolate and introduced amino acid substitutions that defined viral lineages. Mutant GPs were used to generate a panel of pseudoviruses, which were used to infect different human and bat cell lines. These data revealed that specific amino acid substitutions in the EBOV GP have increased tropism for human cells, while reducing tropism for bat cells. Such increased infectivity may have enhanced the ability of EBOV to transmit among humans and contributed to the wide geographic distribution of some viral lineages.

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Section: Resultsmentioning

confidence: 99%

“…Transfections were performed as previously described (Mohan et al., 2015, Urbanowicz et al., 2016). Briefly, 1.2x10 6 HEK293T cells were seeded overnight in a 10cm diameter Primaria coated dish (Corning) in 10mL of DMEM supplemented with non-essential amino acids and heat-inactivated FBS.…”

Section: Methodsmentioning

confidence: 99%

Human Adaptation of Ebola Virus during the West African Outbreak

Urbanowicz

McClure

Sakuntabhai

et al. 2016

Cell

Self Cite

192

188

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“…Viral pseudoparticles are good models for entry inhibitor assay and also for screening against different viral genotypes (29). To confirm that theaflavins act at the entry step, HCVpp were produced and inoculated to Huh-7 cells in the presence of each theaflavins at active concentrations (EC 50 and 10 × EC 50 ).…”

Section: Resultsmentioning

confidence: 99%

Theaflavins, polyphenols of black tea, inhibit entry of hepatitis C virus

Chowdhury

Sahuc

Rouillé

et al. 2018

Preprint

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20The treatment of hepatitis C virus (HCV) infection by combination of direct acting antivirals 21 (DAA), with different mode of action, has made substantial progress in the past few years. 22 3 47 development of HCV direct acting antivirals (DAA) like Daclatasvir, Sofosbuvir and Simeprevir, 48targeting viral proteins NS5A, NS5B polymerase or NS3/4A protease, respectively (5). These 49 approved DAA prominently increase the sustained viral response (SVR) up to ~95% in most 50 patients, depending primarily on disease stage and the genotype of the infecting virus (5). 51However, treatment with DAAs is not without limitation; it is associated with side-effects, 52 resurgence of infection in transplant patient and high cost especially in developing countries 53 (6,7). Approved DAAs mainly target the virus replication leading to emergence of resistance 54 mutations in this RNA virus genome (8). Thus, novel combinations of low cost entry inhibitors 55 with conventional treatment targeting different stages of the HCV life cycle, may provide a 56 promising approach against HCV drug resistance development and infection relapse (9). 57 Moreover, prevention of donor liver re-infection by inhibiting viral entry into hepatocytes might 58 be achieved using DAAs targeting entry. 59 Hepatitis C virus is an enveloped positive-stranded RNA virus encoding a polyprotein, co-and 60 post-translationnally cleaved into structural and non-structural proteins (10). Two viral 61 glycoproteins E1 and E2 are part of the lipoviroparticle envelope. Non-structural proteins, NS2 62 to NS5B, are involved in replication and assembly of new virions. Actual antiviral therapy with 63 DAA targets three non-structural proteins, the RNA-dependent RNA polymerase NS5B, a non-64 enzymatic protein involved in replication and assembly of HCV NS5A, and the viral protease 65 NS3/4A, involved in polyprotein processing and essential for viral replication (11). Virus entry 66into hepatocytes is a multistep process that involves attachment of the particle to 67 glycosaminoglycans and subsequent binding to entry factors, SR-B1, CD81, Claudin-1 and 68 Occludin (12). After clathrin-mediated endocytosis and fusion of the viral envelope to 69 endosomal membrane, the viral RNA is replicated, assembled and released via the secretory 70 pathway.

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“…Lentiviral vectors are retroviruses, which are enveloped single-stranded RNA viruses, derived, for example, from human immunodeficiency virus type 1 (HIV-1). They have been used to develop pseudotype viral particles for many pathogenic viruses [3][4][5][6]. These replication-deficient vectors offer a number of advantages including that they do not replicate in mammalian cells, they infect dividing and nondividing cells, they can incorporate large transgenes derived from other pathogenic viruses as large as 9 kb, and they induce no or weak immune response [7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Generation of MERS-CoV Pseudotyped Viral Particles for the Evaluation of Neutralizing Antibodies in Mammalian Sera

Almasaud

Alharbi

Hashem

2019

Methods in Molecular Biology

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Pseudotyped viral particle production has been used extensively and broadly for many viruses to evaluate levels of neutralizing antibodies, viral entry inhibitors and vaccine immunogenicity. This assay is extremely safe and useful alternative to live virus-based assay without the need for high containment facilities. In this chapter, we describe the generation of MERS-CoV pseudotyped viral particles (MERSpp) expressing fulllength spike protein using second-generation lentiviral packaging system. This platform is optimized to generate high titer of MERSpp and to test sera from different mammalian species.

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Novel functional hepatitis C virus glycoprotein isolates identified using an optimized viral pseudotype entry assay

Cited by 33 publications

References 52 publications

Human Adaptation of Ebola Virus during the West African Outbreak

Human Adaptation of Ebola Virus during the West African Outbreak

Theaflavins, polyphenols of black tea, inhibit entry of hepatitis C virus

Generation of MERS-CoV Pseudotyped Viral Particles for the Evaluation of Neutralizing Antibodies in Mammalian Sera

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