Litcius/Paper detail

Senecavirus A Entry Into Host Cells Is Dependent on the Cholesterol-Mediated Endocytic Pathway

Meiyu Jia, Mingxia Sun, Yan‐Dong Tang, Yuyuan Zhang, Haiwei Wang, Xuehui Cai, Fandan Meng

2022Frontiers in Veterinary Science12 citationsDOIOpen Access PDF

Abstract

family, causes vesicular disease in pigs. Here, we generated an EGFP-expressing recombinant SVA re-SVA-EGFP, which exhibited similar growth kinetics to its parental virus. The reporter SVA was used to study the role of pig ANTXR1 (pANTXR1) in SVA infection in a porcine alveolar macrophage cell line (PAM-Tang cells). Knockdown of the pANTXR1 significantly reduced SVA infection and replication in PAM-Tang cells, while re-expression of the pANTXR1 promoted the cell susceptibility to SVA infection. The results indicated that pANTXR1 is a crucial receptor mediating SVA infection. Subsequently, the viral endocytosis pathways for SVA entry into pig cells were investigated and the results showed that cholesterol played an essential role in receptor-mediated SVA entry. Together, these results demonstrated that SVA entered into host cells through the pANTXR1-mediated cholesterol pathway. Our findings provide potential targets to develop antiviral drugs for the prevention of SVA infection in the pig population.

Topics & Concepts

EndocytosisEndocytic cycleBiologyCell biologyVirologyCell cultureVirusReceptorMacrophageGeneticsIn vitroVirus-based gene therapy researchViral Infections and Immunology ResearchAnimal Virus Infections Studies