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Transcriptomic profiles of Crandell-Rees feline kidney cells infected with Varicellovirus felidalpha-1 (FHV-1) field and vaccine strains
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Transcriptomic profiles of Crandell-Rees feline kidney cells infected with Varicellovirus felidalpha-1 (FHV-1) field and vaccine strains
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Transcriptomic profiles of Crandell-Rees feline kidney cells infected with Varicellovirus felidalpha-1 (FHV-1) field and vaccine strains
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Journal Article
Transcriptomic profiles of Crandell-Rees feline kidney cells infected with Varicellovirus felidalpha-1 (FHV-1) field and vaccine strains
2025
Overview
Background
Varicellovirus felidalpha-1
(FHV-1, previously
Felid alphaherpesvirus-1
) is a significant cause of upper respiratory tract disease in feline populations. Cats infected with FHV-1 show clinical signs that vary in severity. This can be due to differences in host responses and virus strain virulence. Investigating the gene transcription profiles during infections using FHV-1 strains could inform our understanding of host and viral factors contributing to disease outcomes. This study characterised the transcriptomes of Crandell–Rees feline kidney (CRFK) cells infected with field or vaccine FHV-1 strains to better understand the host response during infection.
Methods
Crandell–Rees feline kidney cells were infected with either the FHV-1 F2 vaccine strain or the 384/75 field strain associated with severe disease. The transcriptomes were characterised using RNA-sequencing. To determine the host cellular transcription profile, the total transcripts were mapped to the cat genome and compared to uninfected cells. To characterise the viral transcription profile, the total reads were mapped to each FHV-1 strain. The differentially expressed host genes between infection strains were compared and further analysed using the PANTHER database to examine host pathway regulation.
Results
The findings in this study show the differential host gene expressions induced by FHV-1 compared to uninfected CRFK cells. Genes encoding histone proteins were upregulated, while genes involved in cell adhesion and migration processes were downregulated during infections with FHV-1. Comparative analysis between field and vaccine strains showed similarities and differences in host gene expressions. Notably, upregulated genes unique to the field strain were associated with regulatory proteins involved in the cell cycle, while downregulated host genes in field and vaccine strains showed distinct host gene and pathway expressions involved in immune activation.
Conclusions
This study demonstrates the host and viral gene expressions during FHV-1 infection shows the distinct host responses to field and vaccine strains using an in vitro model. These findings provide a foundation for future transcriptomic investigations in other cell types, including ex-vivo explants systems, to enhance our understanding of host and viral factors contributing to disease outcomes.
Publisher
BioMed Central,BioMed Central Ltd,BMC
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