Transcriptome Analysis of Peritoneal Cells Reveals the Early Immune Response of Flounder ( Paralichthys olivaceus ) to Inactivated Vibrio anguillarum Immunization.
Xianghu MengHeng ChiZuobing ZhangQian LiXiu-Zhen ShengXiaoqian TangJing XingWenbin ZhanPublished in: Vaccines (2023)
Vibrio anguillarum ( V. anguillarum ) is a bacterium that seriously harms flounder and other aquaculture species. Vaccination is an effective means of preventing vibriosis and is mainly administered by intraperitoneal injection. Effective antigen processing at the initial stage of immunization is essential to elicit adaptive immune responses and improve vaccine efficacy. To understand the early immune response of flounder caused by inactivated V. anguillarum , we detected the transcriptome profiles of the cells in the peritoneal cavity ( Po PerCs) after inactivated V. anguillarum immunization. More than 10 billion high-quality reads were obtained, of which about 89.33% were successfully mapped to the reference genome of flounder. A total of 1985, 3072, 4001, and 5476 differentially expressed genes were captured at 6, 12, 24, and 48 h post immunization, respectively. The hub module correlated with the immunization time was identified by WGCNA. GO and KEGG analysis showed that hub module genes were abundantly expressed in various immune-related aspects, including the response to stimuli, the immune system process, signal transducer activity, autophagy, the NOD-like receptor signaling pathway, the toll-like receptor signaling pathway, the T cell receptor signaling pathway, and Th17 cell differentiation. Additionally, genes related to Th cell differentiation are presented as heatmaps. These genes constitute a complex immune regulatory network, mainly involved in pathogen recognition, antigen processing and presentation, and Th cell differentiation. The results of this study provide the first transcriptome profile of Po PerCs associated with inactivated V. anguillarum immunity and lay a solid foundation for further studies on effective V. anguillarum vaccines.
Keyphrases
- immune response
- signaling pathway
- induced apoptosis
- toll like receptor
- genome wide
- bioinformatics analysis
- endoplasmic reticulum stress
- pi k akt
- cell cycle arrest
- epithelial mesenchymal transition
- dna methylation
- dendritic cells
- genome wide identification
- nuclear factor
- oxidative stress
- cell death
- gene expression
- single cell
- cell proliferation
- biofilm formation
- escherichia coli
- drug induced