Molecular and Evolutionary Characteristics of Chicken Parvovirus (ChPV) Genomes Detected in Chickens with Runting-Stunting Syndrome

• Published in: Viruses Vol. 16; no. 9; p. 1389
• Main Authors: Chacón, Ruy D, Sánchez-Llatas, Christian J, da Costa, Antonio Charlys, Valdeiglesias Ichillumpa, Stefhany, Cea-Callejo, Pablo, Marín-Sánchez, Obert, Astolfi-Ferreira, Claudete S, Santander-Parra, Silvana, Nuñez, Luis F N, Piantino Ferreira, Antonio J
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 30.08.2024; MDPI
• Subjects: Animals; Aveparvovirus; Birds; Capsids; Chickens - virology; Diarrhea; Disease; Epitopes; Evolution, Molecular; Genes; Genome, Viral; Genomes; Genomic analysis; Host specificity; Lymphocytes T; Metagenomics; Parvoviridae Infections - veterinary; Parvoviridae Infections - virology; Parvovirinae - classification; Parvovirinae - genetics; Parvovirus - classification; Parvovirus - genetics; Parvoviruses; phylogenetic analysis; Phylogenetics; Phylogeny; Poultry; Poultry Diseases - virology; protein modeling; Proteins; Recombination; runting–stunting syndrome; selective pressure; viral metagenomics; Viruses; United States > US; epitope prediction; selective pressure; phylogenetic analysis; Aveparvovirus; runting–stunting syndrome; protein modeling; viral metagenomics
• ISSN: 1999-4915; 1999-4915
• DOI: 10.3390/v16091389

Chicken Parvovirus (ChPV) belongs to the genus and is implicated in enteric diseases like runting-stunting syndrome (RSS) in poultry. In RSS, chicken health is affected by diarrhea, depression, and increased mortality, causing significant economic losses in the poultry industry. This study aimed to characterize the ChPV genomes detected in chickens with RSS through a metagenomic approach and compare the molecular and evolutionary characteristics within the species. The intestinal content of broiler flocks affected with RSS was submitted to viral metagenomics. The assembled prevalent genomes were identified as ChPV after sequence and phylogenetic analysis, which consistently clustered separately from Turkey Parvovirus (TuPV). The strain USP-574-A presented signs of genomic recombination. The selective pressure analysis indicated that most of the coding genes in are evolving under diversifying (negative) selection. Protein modeling of ChPV and TuPV viral capsids identified high conservancy over the VP2 region. The prediction of epitopes identified several co-localized antigenic peptides from ChPV and TuPV, especially for T-cell epitopes, highlighting the immunological significance of these sites. However, most of these peptides presented host-specific variability, obeying an adaptive scenario. The results of this study show the evolutionary path of ChPV and TuPV, which are influenced by diversifying events such as genomic recombination and selective pressure, as well as by adaptation processes, and their subsequent immunological impact.