Inhibition of canine parvovirus 2 (CPV-2) replication by TAT-scFv through targeting of the viral structural protein VP2 of CPV-2

In this study, we fused the transactivating transcriptional activator peptide (TAT) with scFv. TAT-scFv was identified by Western blot. CCK8 kit was used to detect the toxicity of TAT-scFv to cells. The binding activity of TAT-scFv to CPV-2-VP2 was detected by DAS ELISA. The cell uptake rate of TAT-scFv was assessed by IFA. After infection with CPV-2, F81 cells were incubated by TAT-scFv. The replication of virus was measured to determine the neutralization effect of TAT-scFv on intracellular and extracellular viruses. Protein docking was used to predict the amino acid (AA) sites of VP2 binding to TAT-scFv. TAT-scFv was expressed in Escherichia coli and purified. The DAS ELISA showed that TAT-scFv could bind with CPV-2-VP2. We demonstrated that TAT-scFv entered cells in a dose-dependent and time-dependent manner and effectively inhibited the replication of CPV-2. Using protein docking, we determined the interaction pattern and found that the N-terminal region (AA 41-49) and the C-terminal region (AA 558) of VP2 interacted with the TAT-scFv. Taken together, these results suggest that, TAT-scFv may be a potential antiviral drug for inhibiting CPV-2 replication and controlling disease caused by CPV-2.PMID:38252049
Source: New Microbiologica - Category: Microbiology Authors: Source Type: research