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The Expression of Hemagglutinin by a Recombinant Newcastle Disease Virus Causes Structural Changes and Alters Innate Immune Sensing
The Expression of Hemagglutinin by a Recombinant Newcastle Disease Virus Causes Structural Changes and Alters Innate Immune Sensing
by Verleysen, Eveline , Lambrecht, Bénédicte , Duchatel, Victoria , Rodil, Isabel Fernandez , Steensels, Mieke , Ingrao, Fiona , Mast, Jan
in Acids / Animal diseases / Animal health / Avian flu / avian influenza / Economic importance / Exo-a-sialidase / Functional morphology / Gene expression / Genomes / Glycoproteins / Hemagglutinins / Immune response / Immunogenicity / Infections / Influenza / Innate immunity / Insertion / Microscopy / Monoclonal antibodies / Newcastle disease / Newcastle disease virus / Pathogens / Poultry / Sensors / Severe acute respiratory syndrome / Strain analysis / Structural analysis / Structure-function relationships / TLR3 protein / TLR7 protein / Toll-like receptors / Vaccines / vector vaccines / Vectors (Biology) / Viruses
2021
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The Expression of Hemagglutinin by a Recombinant Newcastle Disease Virus Causes Structural Changes and Alters Innate Immune Sensing
by Verleysen, Eveline , Lambrecht, Bénédicte , Duchatel, Victoria , Rodil, Isabel Fernandez , Steensels, Mieke , Ingrao, Fiona , Mast, Jan
in Acids / Animal diseases / Animal health / Avian flu / avian influenza / Economic importance / Exo-a-sialidase / Functional morphology / Gene expression / Genomes / Glycoproteins / Hemagglutinins / Immune response / Immunogenicity / Infections / Influenza / Innate immunity / Insertion / Microscopy / Monoclonal antibodies / Newcastle disease / Newcastle disease virus / Pathogens / Poultry / Sensors / Severe acute respiratory syndrome / Strain analysis / Structural analysis / Structure-function relationships / TLR3 protein / TLR7 protein / Toll-like receptors / Vaccines / vector vaccines / Vectors (Biology) / Viruses
2021
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The Expression of Hemagglutinin by a Recombinant Newcastle Disease Virus Causes Structural Changes and Alters Innate Immune Sensing
The Expression of Hemagglutinin by a Recombinant Newcastle Disease Virus Causes Structural Changes and Alters Innate Immune Sensing
by Verleysen, Eveline , Lambrecht, Bénédicte , Duchatel, Victoria , Rodil, Isabel Fernandez , Steensels, Mieke , Ingrao, Fiona , Mast, Jan
in Acids / Animal diseases / Animal health / Avian flu / avian influenza / Economic importance / Exo-a-sialidase / Functional morphology / Gene expression / Genomes / Glycoproteins / Hemagglutinins / Immune response / Immunogenicity / Infections / Influenza / Innate immunity / Insertion / Microscopy / Monoclonal antibodies / Newcastle disease / Newcastle disease virus / Pathogens / Poultry / Sensors / Severe acute respiratory syndrome / Strain analysis / Structural analysis / Structure-function relationships / TLR3 protein / TLR7 protein / Toll-like receptors / Vaccines / vector vaccines / Vectors (Biology) / Viruses
2021

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The Expression of Hemagglutinin by a Recombinant Newcastle Disease Virus Causes Structural Changes and Alters Innate Immune Sensing
The Expression of Hemagglutinin by a Recombinant Newcastle Disease Virus Causes Structural Changes and Alters Innate Immune Sensing
Journal Article

The Expression of Hemagglutinin by a Recombinant Newcastle Disease Virus Causes Structural Changes and Alters Innate Immune Sensing

Verleysen, Eveline,
Lambrecht, Bénédicte,
Duchatel, Victoria,
Rodil, Isabel Fernandez,
Steensels, Mieke,
Ingrao, Fiona,
Mast, Jan
2021
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Overview
Recombinant Newcastle disease viruses (rNDV) have been used as bivalent vectors for vaccination against multiple economically important avian pathogens. NDV-vectored vaccines expressing the immunogenic H5 hemagglutinin (rNDV-H5) are considered attractive candidates to protect poultry from both highly pathogenic avian influenza (HPAI) and Newcastle disease (ND). However, the impact of the insertion of a recombinant protein, such as H5, on the biological characteristics of the parental NDV strain has been little investigated to date. The present study compared a rNDV-H5 vaccine and its parental NDV LaSota strain in terms of their structural and functional characteristics, as well as their recognition by the innate immune sensors. Structural analysis of the rNDV-H5 demonstrated a decreased number of fusion (F) and a higher number of hemagglutinin-neuraminidase (HN) glycoproteins compared to NDV LaSota. These structural differences were accompanied by increased hemagglutinating and neuraminidase activities of rNDV-H5. During in vitro rNDV-H5 infection, increased mRNA expression of TLR3, TLR7, MDA5, and LGP2 was observed, suggesting that the recombinant virus is recognized differently by sensors of innate immunity when compared with the parental NDV LaSota. Given the growing interest in using NDV as a vector against human and animal diseases, these data highlight the importance of thoroughly understanding the recombinant vaccines’ structural organization, functional characteristics, and elicited immune responses.
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Publisher
MDPI AG,MDPI
Subject

Acids

/ Animal diseases

/ Animal health

/ Avian flu

/ avian influenza

/ Economic importance

/ Exo-a-sialidase

/ Functional morphology

/ Gene expression

/ Genomes

/ Glycoproteins

/ Hemagglutinins

/ Immune response

/ Immunogenicity

/ Infections

/ Influenza

/ Innate immunity

/ Insertion

/ Microscopy

/ Monoclonal antibodies

/ Newcastle disease

/ Newcastle disease virus

/ Pathogens

/ Poultry

/ Sensors

/ Severe acute respiratory syndrome

/ Strain analysis

/ Structural analysis

/ Structure-function relationships

/ TLR3 protein

/ TLR7 protein

/ Toll-like receptors

/ Vaccines

/ vector vaccines

/ Vectors (Biology)

/ Viruses

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