Molecular characterization, sequence analysis and tissue expression of a porcine gene – MOSPD2

Transcriptome signatures of host tissue infected with African swine fever virus reveal differential expression of associated oncogenes

African swine fever (ASF) has emerged as a threat to swine production worldwide. Evasion of host immunity by ASF virus (ASFV) is well understood. However, the role of ASFV in triggering oncogenesis is still unclear. In the present study, ASFV-infected kidney tissue samples were subjected to Illumina-based transcriptome analysis. A total of 2463 upregulated and 825 downregulated genes were differentially expressed (p < 0.05). A literature review revealed that the majority of the differentially expressed host genes were key molecules in signaling pathways involved in oncogenesis. Bioinformatic analysis indicated the activation of certain oncogenic KEGG pathways, including basal cell carcinoma, breast cancer, transcriptional deregulation in cancer, and hepatocellular carcinoma. Analysis of host-virus interactions revealed that the upregulated oncogenic RELA (p65 transcription factor) protein of Sus scrofa can interact with the A238L (hypothetical protein of unknown function) of ASFV. Differential expression of oncogenes was confirmed by qRT-PCR, using the H3 histone family 3A gene (H3F3A) as an internal control to confirm the RNA-Seq data. The levels of gene expression indicated by qRT-PCR matched closely to those determined through RNA-Seq. These findings open up new possibilities for investigation of the mechanisms underlying ASFV infection and offer insights into the dynamic interaction between viral infection and oncogenic processes. However, as these investigations were conducted on pigs that died from natural ASFV infection, the role of ASFV in oncogenesis still needs to be investigated in controlled experimental studies.

Molecular characterization of a MOSPD2 homolog in the barbel steed (Hemibarbus labeo) and its involvement in monocyte/macrophage and neutrophil migration

Motile sperm domain containing 2 (MOSPD2) is a single-pass membrane protein to which until recently little function had been ascribed. Although its mammalian homologs have been identified, the status of the mospd2 gene in lower vertebrates is still unknown. In the present study, cDNA of the mospd2 gene of barbel steed (Hemibarbus labeo) was cloned and sequenced to characterize its potential involvement in the innate immune system of this fish. Sequence analysis revealed that the predicted barbel steed MOSPD2 protein contained an N-terminal extracellular portion composed of a CRAL-TRIO domain, a motile sperm domain, and a transmembrane domain, as well as a short C-terminal intracellular domain. Phylogenetic tree analysis indicated that barbel steed MOSPD2 is closely related to that of zebrafish. Barbel steed mospd2 transcripts were detected in a wide range of tissues, with the highest level being found in the gill. In response to lipopolysaccharide (LPS) treatment or Aeromonas hydrophila infection, mospd2 gene expression was significantly altered in the head kidney, spleen, and mid-intestine. The expression of mospd2 gene was detected in monocytes/macrophages (MO/MФ), neutrophils, and lymphocytes, and was found to be mainly expressed in MO/MФ. At the same time, using flow cytometry, we also confirmed that MOSPD2 protein is located on MO/MФ, neutrophil, and lymphocyte membranes. Following treatment with LPS or A. hydrophila, MOSPD2 protein expression was induced in these immune cells. The migration of MO/MФ and neutrophils decreased significantly upon MOSPD2 blockade with anti-MOSPD2 IgG in a dose-dependent manner, whereas this treatment had no significant effect on lymphocytes migration. To the best of our knowledge, our study, for the first time, provides evidence that MOSPD2 mediates the migration of MO/MФ and neutrophils in a fish species.