# Transcriptome Analysis Reveals Novel Inflammatory Signalings to Glaesserella parasuis Infection

**Authors:** Jingwen Lei, Xuexue Chen, Huanhuan Zhou, Zekai Zhang, Zhong Xu, Ke Xu, Hongbo Chen

PMC · DOI: 10.3390/genes15081094 · Genes · 2024-08-20

## TL;DR

This study identifies new inflammatory signaling pathways triggered by Glaesserella parasuis infection in pigs, offering insights for developing disease-resistant breeding strategies.

## Contribution

The study reveals novel inflammatory signaling pathways and candidate receptors involved in Glaesserella parasuis-induced systemic inflammation in pigs.

## Key findings

- Three in vitro infection models showed significant upregulation of inflammatory factors after GPS stimulation.
- Transcriptome analysis identified thousands of differentially expressed genes linked to inflammation and immune response.
- Key signaling pathways and receptors like ACKR3 and GPRC5A were identified as critical in GPS-induced inflammation.

## Abstract

Glaesserella parasuis (GPS) can cause severe systemic inflammation in pigs, resulting in huge economic losses to the pig industry. At present, no effective method is available for the prevention and control of GPS infection. Molecular breeding for disease resistance is imminent, but disease-resistance genes have not been identified. To study the mechanism of systemic acute inflammation caused by GPS, we established three in vitro infection models (3D4/21 cells, PK15 cells, and PAVEC cells) according to its infection path. There was no significant difference in apoptosis among the three kinds of cells after 12 h of continuous GPS stimulation, while inflammatory factors were significantly upregulated. Subsequent transcriptome analysis revealed 1969, 1207, and 3564 differentially expressed genes (DEGs) in 3D4/21 cells, PK15 cells, and PAVEC cells, respectively, after GPS infection. Many of the DEGs were predicted to be associated with inflammatory responses (C3, CD44, etc.); cell proliferation, growth and apoptosis; gene expression; and protein phosphorylation. Key signaling pathways, including S100 family signaling, bacteria and virus recognition, and pathogen-induced cytokine storm signaling, were enriched based on Ingenuity Pathway Analysis (IPA). Furthermore, a total of three putative transmembrane receptors and two putative G-protein-coupled receptors, namely F3, ICAM1, PLAUR, ACKR3, and GPRC5A, were identified by IPA among the three types of cells. ACKR3 and GPRC5A play pivotal roles in bacterial adhesion, invasion, host immune response and inflammatory response through the S100 family signaling pathway. Our findings provide new insights into the pathological mechanisms underlying systemic inflammation caused by GPS infection in pigs, and they lay a foundation for further research on disease-resistance breeding to GPS.

## Linked entities

- **Genes:** C3 (complement C3) [NCBI Gene 718], CD44 (CD44 molecule (IN blood group)) [NCBI Gene 960], F3 (coagulation factor III, tissue factor) [NCBI Gene 2152], ICAM1 (intercellular adhesion molecule 1) [NCBI Gene 3383], PLAUR (plasminogen activator, urokinase receptor) [NCBI Gene 5329], ACKR3 (atypical chemokine receptor 3) [NCBI Gene 57007], GPRC5A (G protein-coupled receptor class C group 5 member A) [NCBI Gene 9052]
- **Species:** Sus scrofa (taxon 9823)

## Full-text entities

- **Genes:** ACKR3 (atypical chemokine receptor 3) [NCBI Gene 100515346] {aka CXCR7}, CD44 [NCBI Gene 101098744], GPRC5A (G protein-coupled receptor class C group 5 member A) [NCBI Gene 100624186], ICAM1 (intercellular adhesion molecule 1) [NCBI Gene 396750] {aka ICAM-1}, PLAUR (plasminogen activator, urokinase receptor) [NCBI Gene 100521017]
- **Diseases:** GPS infection (MESH:D007239), Inflammatory (MESH:D007249)
- **Species:** Sus scrofa (pig, species) [taxon 9823]
- **Cell lines:** 3D4/21 — Sus scrofa (Pig), Transformed cell line (CVCL_0F14), PK15 — Sus scrofa (Pig), Spontaneously immortalized cell line (CVCL_2160)

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC11353251/full.md

## References

41 references — full list in the complete paper: https://tomesphere.com/paper/PMC11353251/full.md

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Source: https://tomesphere.com/paper/PMC11353251