Role of N-glycosylation on Zika virus E protein secretion, viral assembly and infectivity

Zika virus has rapidly spread reaching a global distribution pattern similar to that of dengue virus, and has been associated with serious neurological and developmental pathologies, like congenital malformation during pregnancy and Guillain-Barré syndrome. Sequence analysis of different clinical an...

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Veröffentlicht in:	Biochemical and biophysical research communications 2017-10, Vol.492 (4), p.579-586
Hauptverfasser:	Mossenta, M., Marchese, S., Poggianella, M., Slon Campos, J.L., Burrone, O.R.
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Sprache:	eng
Schlagworte:	Animals Envelope protein Flavivirus Glycosylation Humans Infectivity K562 Cells Protein Domains Secretion Vero Cells Viral Envelope Proteins - metabolism Virus Activation - physiology Virus Assembly - physiology Zika virus Zika Virus - pathogenicity Zika Virus - physiology Zika Virus Infection - virology
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description	Zika virus has rapidly spread reaching a global distribution pattern similar to that of dengue virus, and has been associated with serious neurological and developmental pathologies, like congenital malformation during pregnancy and Guillain-Barré syndrome. Sequence analysis of different clinical and laboratory isolates has shown the existence of mutants with loss of the conserved N-glycosylation motif on domain I of protein E that is common to all flaviviruses. We found that loss of E N-linked glycosylation leads to compromised expression and secretion of E ectodomain from mammalian cells. For both, wild type and glycosylation-negative mutant, secretion was independent of co-expression of the PrM viral protein, but highly dependent on temperature. Low temperature (28 °C) favoured secretion, although the glycosylation mutant E ectodomain showed impaired secretion and membrane display compared to the wild type. Production of pseudoviral particles with a West Nile virus replicon packaged with the Zika virus structural proteins C-PrM-E was significantly reduced with the non-glycosylated E. Similarly, glycosylation-negative pseudoviral particles showed impaired infectivity of Vero cells and reduced ability to infect K562 cells upon particles opsonisation with anti-E antibodies. •Lack of N-glycosylation impairs secretion and membrane display of ZIKV E ectodomain.•Defective E N-glycosylation compromised packaging of RNA replicon by Zika virus structural proteins.•Pseudoviral particles with a glycosylation-negative E have reduced infectivity on Vero and K562 cells.
doi_str_mv	10.1016/j.bbrc.2017.01.022
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Sequence analysis of different clinical and laboratory isolates has shown the existence of mutants with loss of the conserved N-glycosylation motif on domain I of protein E that is common to all flaviviruses. We found that loss of E N-linked glycosylation leads to compromised expression and secretion of E ectodomain from mammalian cells. For both, wild type and glycosylation-negative mutant, secretion was independent of co-expression of the PrM viral protein, but highly dependent on temperature. Low temperature (28 °C) favoured secretion, although the glycosylation mutant E ectodomain showed impaired secretion and membrane display compared to the wild type. Production of pseudoviral particles with a West Nile virus replicon packaged with the Zika virus structural proteins C-PrM-E was significantly reduced with the non-glycosylated E. Similarly, glycosylation-negative pseudoviral particles showed impaired infectivity of Vero cells and reduced ability to infect K562 cells upon particles opsonisation with anti-E antibodies. •Lack of N-glycosylation impairs secretion and membrane display of ZIKV E ectodomain.•Defective E N-glycosylation compromised packaging of RNA replicon by Zika virus structural proteins.•Pseudoviral particles with a glycosylation-negative E have reduced infectivity on Vero and K562 cells.</description><identifier>ISSN: 0006-291X</identifier><identifier>EISSN: 1090-2104</identifier><identifier>DOI: 10.1016/j.bbrc.2017.01.022</identifier><identifier>PMID: 28069378</identifier><language>eng</language><publisher>United States: Elsevier Inc</publisher><subject>Animals ; Envelope protein ; Flavivirus ; Glycosylation ; Humans ; Infectivity ; K562 Cells ; Protein Domains ; Secretion ; Vero Cells ; Viral Envelope Proteins - metabolism ; Virus Activation - physiology ; Virus Assembly - physiology ; Zika virus ; Zika Virus - pathogenicity ; Zika Virus - physiology ; Zika Virus Infection - virology</subject><ispartof>Biochemical and biophysical research communications, 2017-10, Vol.492 (4), p.579-586</ispartof><rights>2017</rights><rights>Copyright © 2017. 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Sequence analysis of different clinical and laboratory isolates has shown the existence of mutants with loss of the conserved N-glycosylation motif on domain I of protein E that is common to all flaviviruses. We found that loss of E N-linked glycosylation leads to compromised expression and secretion of E ectodomain from mammalian cells. For both, wild type and glycosylation-negative mutant, secretion was independent of co-expression of the PrM viral protein, but highly dependent on temperature. Low temperature (28 °C) favoured secretion, although the glycosylation mutant E ectodomain showed impaired secretion and membrane display compared to the wild type. Production of pseudoviral particles with a West Nile virus replicon packaged with the Zika virus structural proteins C-PrM-E was significantly reduced with the non-glycosylated E. 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subjects	Animals Envelope protein Flavivirus Glycosylation Humans Infectivity K562 Cells Protein Domains Secretion Vero Cells Viral Envelope Proteins - metabolism Virus Activation - physiology Virus Assembly - physiology Zika virus Zika Virus - pathogenicity Zika Virus - physiology Zika Virus Infection - virology
title	Role of N-glycosylation on Zika virus E protein secretion, viral assembly and infectivity
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