Paramyxoviruses are important respiratory pathogens with substantial clinical relevance in pediatric infectious diseases. During infection, multiple forms of programmed cell death (PCD) may be induced, and this plays pivotal roles in viral replication, dissemination, and host immune responses, thereby profoundly influencing the viral life cycle and disease progression. On one hand, PCD facilitates the clearance of infected cells, restricts viral spread, and activates host immune defenses, thereby enhancing antiviral immunity. On the other hand, excessive or dysregulated cell death may lead to tissue damage and immune imbalance, creating a microenvironment conducive to viral replication and exacerbating disease severity. For instance, apoptosis-mediated by both extrinsic and intrinsic pathways-contributes to infection control but may also be hijacked by viruses to promote dissemination. Pyroptosis, driven by inflammasome activation, triggers lytic cell death and the release of pro-inflammatory cytokines. Necroptosis, mediated by the RIPK1-RIPK3-MLKL signaling axis, and pyroptosis both amplify innate immune responses but may concurrently induce inflammatory dysregulation. Immunogenic cell death (ICD), characterized by the release of damage-associated molecular patterns and neoantigens, activates antigen-specific immune responses and holds therapeutic potential for antiviral and antitumor interventions. Emerging evidence suggests that ferroptosis, through the modulation of iron metabolism and associated transporters, may also participate in viral replication and infected cell clearance. This review comprehensively summarizes the roles of apoptosis, pyroptosis, necroptosis, ICD, and ferroptosis in paramyxovirus infection, aiming to deepen the understanding of paramyxovirus pathogenesis and to provide insights for developing novel antiviral strategies.
Humans ; Paramyxoviridae Infections/pathology* ; Pyroptosis ; Apoptosis ; Virus Replication ; Necroptosis ; Inflammasomes ; Immunity, Innate ; Immunogenic Cell Death ; Paramyxoviridae/physiology* ; Signal Transduction

Seasonal outbreaks of airsacculitis in China's poultry cause great economic losses annually. This study tried to unveil the potential role of Avian metapneumovirus (AMPV), Ornithobacterium rhinotracheale (ORT) and Chlamydia psittaci (CPS) in avian airsacculitis. A serological investigation of 673 breeder chickens and a case-controlled study of 430 birds were undertaken. Results showed that infection with AMPV, ORT, and CPS was highly associated with the disease. The correlation between AMPV and CPS were positively robust in both layers and broilers. Finally, we determined the co-infection with AMPV, ORT, and CPS was prevalent in the sampled poultry farms suffering from respiratory diseases and the outbreak of airsacculitis was closely related to simultaneous exposure to all three agents.
Air Sacs ; microbiology ; pathology ; Animals ; Antibodies, Bacterial ; blood ; Antibodies, Viral ; blood ; Case-Control Studies ; Chickens ; Chlamydia ; Chlamydia Infections ; microbiology ; pathology ; veterinary ; Coinfection ; Flavobacteriaceae Infections ; microbiology ; pathology ; veterinary ; Humans ; Metapneumovirus ; Ornithobacterium ; Paramyxoviridae Infections ; pathology ; veterinary ; virology ; Poultry Diseases ; microbiology ; pathology ; virology ; Respiratory Tract Diseases ; microbiology ; veterinary ; virology ; Seroepidemiologic Studies

BACKGROUND: The accurate and rapid identification of the causative viruses is important for the timely diagnosis and management of respiratory infections. Multiplex molecular diagnostic techniques have been widely adopted to detect respiratory viruses. We compared the results of a newly upgraded, multiplex, molecular bead-based respiratory viral panel (RVP) assay with the results of Anyplex II RV16 detection kit and AdvanSure RV real-time RT-PCR assay. METHODS: We tested 254 respiratory specimens and cultured viral strains using the Luminex xTAG RVP Fast v2 assay (Luminex Molecular Diagnostics, Canada) and Anyplex II RV16 detection kit and compared the results. Specimens showing discordant results between the two assays were tested with a AdvanSure RV real-time RT-PCR assay. RESULTS: Of the 254 respiratory specimens, there was total agreement in the results between the xTAG RVP Fast v2 assay and the other real-time PCR assay in 94.1–100% of the specimens. The agreement levels were relatively low (94.1–97.6%) for specimens of adenovirus, coronavirus NL63, and parainfluenza type 3. In comparison to the other assay, the xTAG RVP Fast v2 assay detected a higher number of parainfluenza type 3 (4 cases) and metapneumovirus (9 cases). CONCLUSIONS: The xTAG RVP Fast v2 assay showed comparable capabilities compared with the other assays; it will be useful for identifying respiratory viral infections in patients with respiratory symptoms. Clinicians should be aware of the characteristics of the assays they use, since different assays show different detectability for each virus.
Adenoviridae ; Coronavirus ; Diagnosis ; Humans ; Metapneumovirus ; Molecular Diagnostic Techniques ; Paramyxoviridae Infections ; Pathology, Molecular ; Real-Time Polymerase Chain Reaction ; Respiratory Tract Infections

OBJECTIVEThe impact of human bocavirus (HBoV), a newly identified human parvovirus, on childhood persistent wheezing has not been identified. In this study, the clinical features of infantile persistent wheezing induced by HBoV was analyzed.

METHODSTracheal aspirates were collected by bronchofibroscope or nasopharyngeal (NP) aspirates from April, 2006 to January, 2007. HBoV DNA in the tracheal aspirates of 33 children with persistent wheezing and in NP aspirates of 6 children with persistent wheezing, who had at least or more than four weeks wheezing. RSV was identified by virus isolation in Hep-2 cells and antigen detetion by direct immunofluorescence assay (DIFA) which was also used for diagnosis of adenovirus, influenza A and B, parainfluenza 1, 2, 3 infection.

RESULTSOf the 39 children with persistent wheezing, 12 cases (31%) were positive for HBoV DNA. Age of HBoV-positive patients ranged from 2 month to 1 year. The results of sequencing of PCR products proved that sequences of HBoV DNA from these 12 samples were exactly identical to the those of HBoV stored in GeneBank (accession numbers DQ000495 and DQ000496). Two cases with HBoV infection were found to be co-infected with RSV. Ten of the 12 HBoV-positive samples were collected during the period from winter to spring (1 in November, 4 in December, 2 in January and 3 in April), the other two HBoV-positive samples were collected during the period from summer to autumn (1 in May and the other in July). Seven of the 12 HBoV DNA-positive patients had fever, 5 of them had high fever. Significantly more patients with HBoV infection had fever as compared to patients with RSV infection. All the HBoV positive patients showed abnormal findings on chest X ray such as interstitial infiltrates, lung infiltration and hyperinflation. Abnormal findings on chest X ray were found in higher proportion of HBoV positive patients as compared with RSV positive patients. And other manifestations such as wheezing, cough and respiratory distress had no significant difference between HBoV and RSV infected patients.

CONCLUSIONSThis study further demonstrated that HBoV probably is a common pathogen of lower respiratory infection in children and might particularly be associated with persistent wheezing.

Child, Preschool ; Cough ; etiology ; Female ; Fever ; etiology ; Human bocavirus ; pathogenicity ; Humans ; Infant ; Male ; Nasopharynx ; pathology ; Paramyxoviridae Infections ; physiopathology ; Parvoviridae Infections ; physiopathology ; Respiratory Sounds ; etiology ; Respiratory Syncytial Virus Infections ; classification ; physiopathology ; Respiratory Tract Infections ; diagnosis ; physiopathology ; virology

Adolescent ; Adult ; Aged ; Child ; Child, Preschool ; China ; epidemiology ; Female ; Humans ; Infant ; Infant, Newborn ; Male ; Metapneumovirus ; Middle Aged ; Paramyxoviridae Infections ; epidemiology ; pathology

Antibodies, Viral ; blood ; Enzyme-Linked Immunosorbent Assay ; Humans ; Immunoglobulin G ; blood ; Metapneumovirus ; genetics ; immunology ; Paramyxoviridae Infections ; complications ; diagnosis ; Respiratory Tract Infections ; blood ; etiology ; pathology ; Reverse Transcriptase Polymerase Chain Reaction

OBJECTIVEA new respiratory virus, human metapneumovirus (HMPV) was recently identified by scientists in the Netherlands first and then in a few other countries. To investigate if this newly discovered virus is associated with the acute respiratory infections in pediatric patients in Beijing, tests were developed to detect HPMV gene fragments from nasopharyngeal aspirates collected from infants and young children hospitalized for acute respiratory infections from November 2002 to March 2003.

METHODSThe HMPV was screened by reverse transcription-polymerase chain reaction (RT-PCR). RNAs were extracted by Trizol from 247 specimens which had been determined as negative for conventional respiratory viruses including RSV, influenza A and B, parainfluenza I, II, III and adenovirus by indirect immunofluorescence test as well as virus isolation. The HMPV RNAs were detected by reverse transcription tests using random primer and M-MLV reverse transcriptase followed by PCR using the primers designed from the published sequence of the N protein-encoding gene from the first HMPV identified in the Netherlands. PCR products were visualized by 1.2% agarose gel electrophoresis. Selected positive PCR products were sequenced and the sequences of the nucleotides and deduced amino acids were compared with those in the GenBank.

RESULTSAmong those 247 specimens negative for common respiratory viruses, 74 (30.0%) showed the predicted 213 bp PCR products in agarose gel. Most of clinical diagnoses for these 58 patients were pneumonia (36, 48.6%), bronchiolitis (21, 28.4%), and bronchitis and asthma in some patients. Nearly 90 percent of positive specimens were from patients under 2 years of age. Ten out of 74 amplicons were randomly selected for sequence analysis. When compared with the sequences in the GenBank, the nucleotide sequences of these 10 amplicons shared high homology only with those of HMPVs. The nucleotide sequence identities of these 10 samples with those from the Netherlands and Canada were 87% - 99%. When compared with the nucleotide sequence from the first reported strain by Van den Hoogen (strain HMPV 00-1), the sequence identities of these 10 fragments ranged from 88.7% to 99.1%. Among the 10 amplicons from the specimens, the nucleotide identities were 87.3% - 100%. One of the 10 amplicons (No. 1816) shared lower identity with others (87.3% - 89.7%), whereas the other 9 shared higher identities (95.8% - 100%) with each other. The comparison of amino acids showed that these 10 amplicons showed high homology (95.8% - 100%). Again, amplicon No.1816 shared lower homology (95.8% - 97.2%) with others, whereas the other 9 shared higher homology (98.6% - 100%). The amino acid homology between No.1816 and HMPV 00-1 was 95.8%, whereas that of the other 9 with HMPV 00-1 was 98.6% - 100%.

CONCLUSIONThese data suggested that some of acute respiratory infections in pediatric patients in Beijing area are related to the newly identified human metapneumovirus. The HMPV circulating in Beijing may have different genotypes.

Acute Disease ; Child ; Child, Preschool ; China ; Female ; Fluorescent Antibody Technique, Indirect ; Humans ; Infant ; Male ; Metapneumovirus ; genetics ; Nucleocapsid Proteins ; genetics ; Paramyxoviridae Infections ; pathology ; virology ; RNA, Viral ; genetics ; Respiratory Tract Infections ; pathology ; virology ; Reverse Transcriptase Polymerase Chain Reaction ; Sequence Analysis, DNA