☆ 4.4 Article

Avian influenza overview April - June 2023

EFSA JOURNAL (2023)

Related references

Note: Only part of the references are listed.

Article Microbiology

Seroconversion of a Swine Herd in a Free-Range Rural Multi-Species Farm against HPAI H5N1 2.3.4.4b Clade Virus

Francesca Rosone et al.

Summary: Starting from October 2021, multiple outbreaks of highly pathogenic avian influenza virus (HPAIV) subtype H5N1 occurred in Italy, affecting wild and domestic birds. A free-ranging poultry farm in Ostia, province of Rome, detected HPAIV, leading to further analysis on samples collected from free-ranging pigs in contact with the infected poultry. While the tested pigs were negative for the influenza type A matrix (M) gene, majority of them showed serological positive results, indicating possible transmission from the virus. These findings highlight the replicative fitness of HPAI H5Nx viruses in mammalian species and call for increased surveillance and biosecurity measures.

MICROORGANISMS (2023)

Add to Collection

Article Multidisciplinary Sciences

BTN3A3 evasion promotes the zoonotic potential of influenza A viruses

Rute Maria Pinto et al.

Summary: The human protein BTN3A3 has been identified as a potent inhibitor of avian influenza viruses but not human influenza viruses. However, some avian influenza viruses can evade this inhibition. Therefore, the sensitivity or resistance to BTN3A3 should be considered in the risk assessment of zoonotic potential of avian influenza viruses.

NATURE (2023)

Add to Collection

Letter Immunology

Highly Pathogenic Avian Influenza A(H5N1) Clade 2.3.4.4b Virus in Domestic Cat, France, 2022

Francois-Xavier Briand et al.

Summary: During December 2022, a domestic cat living near a duck farm infected by a closely related virus in France was found to be infected with the highly pathogenic avian influenza A(H5N1) clade 2.3.4.4b virus. Enhanced surveillance of symptomatic domestic carnivores in contact with infected birds is recommended to prevent further spread to mammals and humans.

EMERGING INFECTIOUS DISEASES (2023)

Add to Collection

Editorial Material Infectious Diseases

Avian influenza, a new threat to public health in Europe?

Cornelia Adlhoch et al.

CLINICAL MICROBIOLOGY AND INFECTION (2022)

Add to Collection

Article Immunology

Novel H5N6 reassortants bearing the clade 2.3.4.4b HA gene of H5N8 virus have been detected in poultry and caused multiple human infections in China

Wenli Gu et al.

Summary: This study analyzed 15 H5N6 viruses isolated from poultry and seven H5N6 viruses isolated from humans, and found that they formed seven different genotypes derived from H5N8 viruses, domestic duck H5N6 viruses, and other previously circulating viruses in China. Two of these genotypes have caused human infections in multiple provinces.

EMERGING MICROBES & INFECTIONS (2022)

Add to Collection

Article Multidisciplinary Sciences

Human infection with a reassortment avian influenza A H3N8 virus: an epidemiological investigation study

Pengtao Bao et al.

Summary: This is a study on a four-year-old boy infected with a reassortant avian influenza A H3N8 virus. The virus was found to have increased virulence and transmissibility, and was detected in pets and environmental samples from the patient's house.

NATURE COMMUNICATIONS (2022)

Add to Collection

Article Immunology

Global dissemination of H5N1 influenza viruses bearing the clade 2.3.4.4b HA gene and biologic analysis of the ones detected in China

Pengfei Cui et al.

Summary: H5N1 avian influenza viruses carrying the clade 2.3.4.4b hemagglutinin gene have been circulating widely in wild birds and causing significant poultry loss worldwide. China has identified 13 H5N1 virus isolates and found genetic relationships with globally circulating strains, forming 16 genotypes. These Chinese isolates exhibit different pathogenicity in mice and show antigenic similarity to the currently used vaccine strain in China.

EMERGING MICROBES & INFECTIONS (2022)

Add to Collection

Letter Immunology

Pathogenesis and Transmissibility of North American Highly Pathogenic Avian Influenza A(H5N1) Virus in Ferrets

Joanna A. Pulit-Penaloza et al.

Summary: This study evaluated the pathogenicity and transmissibility of a highly pathogenic avian influenza A(H5N1) virus using a ferret model and examined its replication kinetics in human respiratory tract cells.

EMERGING INFECTIOUS DISEASES (2022)

Add to Collection

Article Immunology

Novel Zoonotic Avian Influenza A(H3N8) Virus in Chicken, Hong Kong, China

Thomas H. C. Sit et al.

EMERGING INFECTIOUS DISEASES (2022)

Add to Collection

Article Immunology

Novel Reassortant Avian Influenza A(H5N6) Virus, China, 2021

Junhong Chen et al.

Summary: Although human infection with influenza A(H5N6) has increased in 2021, there have been few reports of similar H5N6 virus infection in poultry. We discovered 10 avian influenza A(H5N6) clade 2.3.4.4b viruses in poultry from 4 provinces in China, which showed strong immune escape capacity and complex genetic reassortment, suggesting an increased risk of further transmission.

EMERGING INFECTIOUS DISEASES (2022)

Add to Collection

Article Immunology

Epidemiologic, Clinical, and Genetic Characteristics of Human Infections with Influenza A(H5N6) Viruses, China

Wenfei Zhu et al.

Summary: The recent increase in influenza A(H5N6) infections in China has raised concerns about the risk of human infection. A survey of epidemiological, clinical, and genetic data revealed severe disease in most cases and a high fatality rate. The majority of H5N6 viruses in human isolates in 2021 originated from a specific subtype, and new genotypes were identified as the major cause of increased infections. Mammalian-adapted mutations were found in key genes. Although human-to-human transmission was not observed, the continuous evolution of H5N6 viruses may elevate the risk of human infections.

EMERGING INFECTIOUS DISEASES (2022)

Add to Collection

Article Public, Environmental & Occupational Health

Exposure of wild boar to Influenza A viruses in Bavaria: Analysis of seroprevalences and antibody subtype specificity before and after the panzootic of highly pathogenic avian influenza viruses A (H5N8)

Anika Schuelein et al.

Summary: Swine influenza A viruses circulate in wild boar populations worldwide, with various subtypes reported in different regions of Germany. The study confirmed exposure of wild boar to IAV of diverse origins and highlighted the importance of continuous surveillance of IAV in both domestic swine and wildlife.

ZOONOSES AND PUBLIC HEALTH (2021)

Add to Collection

Article Microbiology

Serological Evidence of Backyard Pig Exposure to Highly Pathogenic Avian Influenza H5N8 Virus during 2016-2017 Epizootic in France

Severine Herve et al.

Summary: A study conducted in France found that backyard pigs may contract HPAI-H5N8 virus naturally after close contact with contaminated domestic ducks, underscoring the importance of implementing proper biosecurity measures in pig and poultry farms to prevent interspecies transmission of IAV.

PATHOGENS (2021)

Add to Collection

Review Virology

Influenza Virus Infections in Cats

Tadeusz Frymus et al.

Summary: Studies have shown that cats are susceptible to influenza A viruses, which can lead to outbreaks in shelters. Different strains of viruses from various sources may cause various symptoms, and even fatalities.

VIRUSES-BASEL (2021)

Add to Collection

Review Genetics & Heredity

Inventory of molecular markers affecting biological characteristics of avian influenza A viruses

Annika Suttie et al.

VIRUS GENES (2019)

Add to Collection

Article Immunology

Highly Pathogenic Avian Influenza A(H5N8) Virus in Gray Seals, Baltic Sea

Dai-Lun Shin et al.

EMERGING INFECTIOUS DISEASES (2019)

Add to Collection

Letter Immunology

Characterization of a novel reassortant H5N6 highly pathogenic avian influenza virus clade 2.3.4.4 in Korea, 2017

Eun-Kyoung Lee et al.

EMERGING MICROBES & INFECTIONS (2018)

Add to Collection

Article Virology

Substrate Binding by the Second Sialic Acid-Binding Site of Influenza A Virus N1 Neuraminidase Contributes to Enzymatic Activity

Wenjuan Du et al.

JOURNAL OF VIROLOGY (2018)

Add to Collection

Article Infectious Diseases

Nomenclature updates resulting from the evolution of avian influenza A(H5) virus clades 2.1.3.2a, 2.2.1, and 2.3.4 during 2013-2014

Gavin J. D. Smith et al.

INFLUENZA AND OTHER RESPIRATORY VIRUSES (2015)

Add to Collection

Article Multidisciplinary Sciences

Identification of mammalian-adapting mutations in the polymerase complex of an avian H5N1 influenza virus

Andrew S. Taft et al.

NATURE COMMUNICATIONS (2015)

Add to Collection

Article Virology

Identification of Molecular Markers Associated with Alteration of Receptor-Binding Specificity in a Novel Genotype of Highly Pathogenic Avian Influenza A(H5N1) Viruses Detected in Cambodia in 2013

Sareth Rith et al.

JOURNAL OF VIROLOGY (2014)

Add to Collection

Article Multidisciplinary Sciences

The K526R substitution in viral protein PB2 enhances the effects of E627K on influenza virus replication

Wenjun Song et al.

NATURE COMMUNICATIONS (2014)

Add to Collection

Article Multidisciplinary Sciences

The Potential for Respiratory Droplet-Transmissible A/H5N1 Influenza Virus to Evolve in a Mammalian Host

Colin A. Russell et al.

SCIENCE (2012)

Add to Collection

Article Virology

In Vitro Assessment of Attachment Pattern and Replication Efficiency of H5N1 Influenza A Viruses with Altered Receptor Specificity

Salin Chutinimitkul et al.

JOURNAL OF VIROLOGY (2010)

Add to Collection

Article Microbiology

Biological and Structural Characterization of a Host-Adapting Amino Acid in Influenza Virus

Shinya Yamada et al.

PLOS PATHOGENS (2010)

Add to Collection

Article Virology

Avian Influenza A Virus Polymerase Association with Nucleoprotein, but Not Polymerase Assembly, Is Impaired in Human Cells during the Course of Infection

Marie-Anne Rameix-Welti et al.

JOURNAL OF VIROLOGY (2009)

Add to Collection

Article Virology

A Single-Amino-Acid Substitution in a Polymerase Protein of an H5N1 Influenza Virus Is Associated with Systemic Infection and Impaired T-Cell Activation in Mice

Jamie L. Fornek et al.

JOURNAL OF VIROLOGY (2009)

Add to Collection

Article Virology

Selection of H5N1 Influenza Virus PB2 during Replication in Humans

Quynh Mai Le et al.

JOURNAL OF VIROLOGY (2009)

Add to Collection

Article Virology

Single mutation at the amino acid position 627 of PB2 that leads to increased virulence of an H5N1 avian influenza virus during adaptation in mice can be compensated by multiple mutations at other sites of PB2

Junwei Li et al.

VIRUS RESEARCH (2009)

Add to Collection

Article Microbiology

Identification of Amino Acids in HA and PB2 Critical for the Transmission of H5N1 Avian Influenza Viruses in a Mammalian Host

Yuwei Gao et al.

PLOS PATHOGENS (2009)

Add to Collection

Article Microbiology

Transmission of Influenza Virus in a Mammalian Host Is Increased by PB2 Amino Acids 627K or 627E/701N

John Steel et al.

PLOS PATHOGENS (2009)

Add to Collection

Article Microbiology

An inhibitory activity in human cells restricts the function of an avian-like influenza virus polymerase

Andrew Mehle et al.

CELL HOST & MICROBE (2008)

Add to Collection

Article Microbiology

Growth of H5N1 influenza a viruses in the upper respiratory tracts of mice

Masato Hatta et al.

PLOS PATHOGENS (2007)

Add to Collection

Article Virology

Host-range determinants on the PB2 protein of influenza A viruses control the interaction between the viral polymerase and nucleoprotein in human cells

Karine Labadie et al.

VIROLOGY (2007)

Add to Collection

Article Multidisciplinary Sciences

Structure and receptor specificity of the hemagglutinin from an H5N1 influenza virus

J Stevens et al.

SCIENCE (2006)

Add to Collection

Article Immunology

The polymerase complex genes contribute to the high virulence of the human H5N1 influenza virus isolate A/Vietnam/1203/04

R Salomon et al.

JOURNAL OF EXPERIMENTAL MEDICINE (2006)

Add to Collection

Article Virology

Molecular basis of replication of duck H5N1 influenza viruses in a mammalian mouse model

ZJ Li et al.

JOURNAL OF VIROLOGY (2005)

Add to Collection

Article Virology

PB2 amino acid at position 627 affects, replicative efficiency, but not cell tropism, of Hong Kong H5N1 influenza A viruses in mice

K Shinya et al.

VIROLOGY (2004)

Add to Collection

Article Multidisciplinary Sciences

Molecular basis for high virulence of Hong Kong H5N1 influenza A viruses

M Hatta et al.

SCIENCE (2001)

Add to Collection

© Peeref 2019-2024. All rights reserved.