BIOMAT Database Logo BIOMAT Database Logo

Enhancing Neuraminidase Immunogenicity of Influenza A Viruses by Rewiring RNA Packaging Signals. 2020

Allen Zheng, and Weina Sun, and Xiaoli Xiong, and Alec W Freyn, and Julia Peukes, and Shirin Strohmeier, and Raffael Nachbagauer, and John A G Briggs, and Florian Krammer, and Peter Palese
Department of Microbiology, Icahn School of Medicine at Mount Sinai, New York, New York, USA.

Humoral immune protection against influenza virus infection is mediated largely by antibodies against hemagglutinin (HA) and neuraminidase (NA), the two major glycoproteins on the virus surface. While influenza virus vaccination efforts have focused mainly on HA, NA-based immunity has been shown to reduce disease severity and provide heterologous protection. Current seasonal vaccines do not elicit strong anti-NA responses-in part due to the immunodominance of the HA protein. Here, we demonstrate that by swapping the 5' and 3' terminal packaging signals of the HA and NA genomic segments, which contain the RNA promoters, we are able to rescue influenza viruses that express more NA and less HA. Vaccination with formalin-inactivated "rewired" viruses significantly enhances the anti-NA antibody response compared to vaccination with unmodified viruses. Passive transfer of sera from mice immunized with rewired virus vaccines shows better protection against influenza virus challenge. Our results provide evidence that the immunodominance of HA stems in part from its abundance on the viral surface, and that rewiring viral packaging signals-thereby increasing the NA content on viral particles-is a viable strategy for improving the immunogenicity of NA in an influenza virus vaccine.IMPORTANCE Influenza virus infections are a major source of morbidity and mortality worldwide. Increasing evidence highlights neuraminidase as a potential vaccination target. This report demonstrates the efficacy of rewiring influenza virus packaging signals for creating vaccines with more neuraminidase content which provide better neuraminidase (NA)-based protection.

UI MeSH Term Description Entries
D007251 Influenza, Human An acute viral infection in humans involving the respiratory tract. It is marked by inflammation of the NASAL MUCOSA; the PHARYNX; and conjunctiva, and by headache and severe, often generalized, myalgia. Grippe,Human Flu,Human Influenza,Influenza in Humans,Influenza,Flu, Human,Human Influenzas,Influenza in Human,Influenzas,Influenzas, Human
D007252 Influenza Vaccines Vaccines used to prevent infection by viruses in the family ORTHOMYXOVIRIDAE. It includes both killed and attenuated vaccines. The composition of the vaccines is changed each year in response to antigenic shifts and changes in prevalence of influenza virus strains. The flu vaccines may be mono- or multi-valent, which contains one or more ALPHAINFLUENZAVIRUS and BETAINFLUENZAVIRUS strains. Flu Vaccine,Influenzavirus Vaccine,Monovalent Influenza Vaccine,Universal Flu Vaccine,Universal Influenza Vaccine,Flu Vaccines,High-Dose Trivalent Influenza Vaccine,Influenza Vaccine,Influenza Virus Vaccine,Influenza Virus Vaccines,Influenzavirus Vaccines,Intranasal Live-Attenuated Influenza Vaccine,LAIV Vaccine,Monovalent Influenza Vaccines,Quadrivalent Influenza Vaccine,Trivalent Influenza Vaccine,Trivalent Live Attenuated Influenza Vaccine,Universal Flu Vaccines,Universal Influenza Vaccines,Flu Vaccine, Universal,High Dose Trivalent Influenza Vaccine,Influenza Vaccine, Monovalent,Influenza Vaccine, Quadrivalent,Influenza Vaccine, Trivalent,Influenza Vaccine, Universal,Intranasal Live Attenuated Influenza Vaccine,Vaccine, Flu,Vaccine, Influenza,Vaccine, Influenza Virus,Vaccine, Influenzavirus,Vaccine, LAIV,Vaccine, Monovalent Influenza,Vaccine, Quadrivalent Influenza,Vaccine, Trivalent Influenza,Virus Vaccine, Influenza
D008807 Mice, Inbred BALB C An inbred strain of mouse that is widely used in IMMUNOLOGY studies and cancer research. BALB C Mice, Inbred,BALB C Mouse, Inbred,Inbred BALB C Mice,Inbred BALB C Mouse,Mice, BALB C,Mouse, BALB C,Mouse, Inbred BALB C,BALB C Mice,BALB C Mouse
D009439 Neuraminidase An enzyme that catalyzes the hydrolysis of alpha-2,3, alpha-2,6-, and alpha-2,8-glycosidic linkages (at a decreasing rate, respectively) of terminal sialic residues in oligosaccharides, glycoproteins, glycolipids, colominic acid, and synthetic substrate. (From Enzyme Nomenclature, 1992) Sialidase,Exo-alpha-Sialidase,N-Acylneuraminate Glycohydrolases,Oligosaccharide Sialidase,Exo alpha Sialidase,Glycohydrolases, N-Acylneuraminate,N Acylneuraminate Glycohydrolases,Sialidase, Oligosaccharide
D009976 Orthomyxoviridae Infections Virus diseases caused by the ORTHOMYXOVIRIDAE. Orthomyxovirus Infections,Infections, Orthomyxoviridae,Infections, Orthomyxovirus,Swine Influenza,Infection, Orthomyxoviridae,Infection, Orthomyxovirus,Influenza, Swine,Orthomyxoviridae Infection,Orthomyxovirus Infection
D009980 Influenza A virus The type species of the genus ALPHAINFLUENZAVIRUS that causes influenza and other diseases in humans and animals. Antigenic variation occurs frequently between strains, allowing classification into subtypes and variants. Transmission is usually by aerosol (human and most non-aquatic hosts) or waterborne (ducks). Infected birds shed the virus in their saliva, nasal secretions, and feces. Alphainfluenzavirus influenzae,Avian Orthomyxovirus Type A,FLUAV,Fowl Plague Virus,Human Influenza A Virus,Influenza Virus Type A,Influenza Viruses Type A,Myxovirus influenzae-A hominis,Myxovirus influenzae-A suis,Myxovirus pestis galli,Orthomyxovirus Type A,Orthomyxovirus Type A, Avian,Orthomyxovirus Type A, Human,Orthomyxovirus Type A, Porcine,Pestis galli Myxovirus,Fowl Plague Viruses,Influenza A viruses,Myxovirus influenzae A hominis,Myxovirus influenzae A suis,Myxovirus, Pestis galli,Myxoviruses, Pestis galli,Pestis galli Myxoviruses,Plague Virus, Fowl,Virus, Fowl Plague
D003429 Cross Reactions Serological reactions in which an antiserum against one antigen reacts with a non-identical but closely related antigen. Cross Reaction,Reaction, Cross,Reactions, Cross
D005260 Female Females
D006388 Hemagglutinins Agents that cause agglutination of red blood cells. They include antibodies, blood group antigens, lectins, autoimmune factors, bacterial, viral, or parasitic blood agglutinins, etc. Isohemagglutinins,Exohemagglutinins,Hemagglutinin
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man

Related Publications

Allen Zheng, and Weina Sun, and Xiaoli Xiong, and Alec W Freyn, and Julia Peukes, and Shirin Strohmeier, and Raffael Nachbagauer, and John A G Briggs, and Florian Krammer, and Peter Palese
Characterisation of influenza A viruses with mutations in segment 5 packaging signals.
October 2009, Vaccine,
Allen Zheng, and Weina Sun, and Xiaoli Xiong, and Alec W Freyn, and Julia Peukes, and Shirin Strohmeier, and Raffael Nachbagauer, and John A G Briggs, and Florian Krammer, and Peter Palese
Contribution of RNA-RNA Interactions Mediated by the Genome Packaging Signals for the Selective Genome Packaging of Influenza A Virus.
March 2022, Journal of virology,
Allen Zheng, and Weina Sun, and Xiaoli Xiong, and Alec W Freyn, and Julia Peukes, and Shirin Strohmeier, and Raffael Nachbagauer, and John A G Briggs, and Florian Krammer, and Peter Palese
The neuraminidase of bat influenza viruses is not a neuraminidase.
November 2012, Proceedings of the National Academy of Sciences of the United States of America,
Allen Zheng, and Weina Sun, and Xiaoli Xiong, and Alec W Freyn, and Julia Peukes, and Shirin Strohmeier, and Raffael Nachbagauer, and John A G Briggs, and Florian Krammer, and Peter Palese
Critical role of segment-specific packaging signals in genetic reassortment of influenza A viruses.
October 2013, Proceedings of the National Academy of Sciences of the United States of America,
Allen Zheng, and Weina Sun, and Xiaoli Xiong, and Alec W Freyn, and Julia Peukes, and Shirin Strohmeier, and Raffael Nachbagauer, and John A G Briggs, and Florian Krammer, and Peter Palese
Codon conservation in the influenza A virus genome defines RNA packaging signals.
January 2007, Nucleic acids research,
Allen Zheng, and Weina Sun, and Xiaoli Xiong, and Alec W Freyn, and Julia Peukes, and Shirin Strohmeier, and Raffael Nachbagauer, and John A G Briggs, and Florian Krammer, and Peter Palese
Influenza A virus nucleoprotein selectively decreases neuraminidase gene-segment packaging while enhancing viral fitness and transmissibility.
November 2014, Proceedings of the National Academy of Sciences of the United States of America,
Allen Zheng, and Weina Sun, and Xiaoli Xiong, and Alec W Freyn, and Julia Peukes, and Shirin Strohmeier, and Raffael Nachbagauer, and John A G Briggs, and Florian Krammer, and Peter Palese
Purification of neuraminidase from influenza viruses by affinity chromatography.
June 1977, Biochimica et biophysica acta,
Allen Zheng, and Weina Sun, and Xiaoli Xiong, and Alec W Freyn, and Julia Peukes, and Shirin Strohmeier, and Raffael Nachbagauer, and John A G Briggs, and Florian Krammer, and Peter Palese
Genome packaging by spherical plant RNA viruses.
January 2006, Annual review of phytopathology,
Allen Zheng, and Weina Sun, and Xiaoli Xiong, and Alec W Freyn, and Julia Peukes, and Shirin Strohmeier, and Raffael Nachbagauer, and John A G Briggs, and Florian Krammer, and Peter Palese
Punicalagin is a neuraminidase inhibitor of influenza viruses.
June 2021, Journal of medical virology,
Allen Zheng, and Weina Sun, and Xiaoli Xiong, and Alec W Freyn, and Julia Peukes, and Shirin Strohmeier, and Raffael Nachbagauer, and John A G Briggs, and Florian Krammer, and Peter Palese
Fitness of neuraminidase inhibitor-resistant influenza A viruses.
December 2011, Current opinion in virology,
Copied contents to your clipboard!