Human cytomegalovirus (CMV) infection can elicit a transitory, but profound, immunodepression in immunocompetent individuals. Cytopathogenic destruction of CMV-infected leukocytes alone does not seem sufficient to explain this phenomenon, which suggests that immune system mediators (cytokines) may play a role in amplifying local modifications wrought by CMV infection. We reported previously that transforming growth factor gi1 (TGF-f1) stimulates CMV replication (
The deletion of the thymidine kinase (TK) gene of herpesviruses causes a reduction in their virulence. However, the effects of the TK gene in infectious laryngotracheitis virus (ILTV) have not been clearly elucidated. In the present study, we constructed a TK gene-deleted recombinant ILTV expressing the green fluorescent protein (GFP) gene as a marker. The GFP gene was inserted in place of the TK gene in both virulent and low virulence strains of ILTV. The GFP gene in the recombinants was expressed in chicken kidney cells, LMH cells and in the chorioallantoic membrane of embryonated chicken eggs. The recombinants produced cytopathic effects in chicken kidney cells and LMH cells and formed pocks in the chorioallantoic membrane of embryonated chicken eggs. The growth rate of the recombinant in chicken kidney cells was similar to that of wild type viruses. The recombinants showed a reduction of virulence compared to that of parental viruses and induced protection against virulent ILTV in specific pathogen free chickens. The recombinant expressing GFP gene may be a candidate for a genetically engineered vaccine and provide a means to study growth kinetics and mechanism of latent infection and reactivation of ILTV. In this study, we confirmed that the TK gene is directly related to virulence of ILTV. This is the first report to show the evidence that the TK gene is a major gene related to virulence of ILTV.
Herpes simplex encephalitis is a life-threatening disease of the central nervous system caused by herpes simplex viruses (HSVs). Following standard of care with antiviral acyclovir treatment, most patients still experience various neurological sequelae. Here we characterize HSV-1 infection of human brain organoids by combining single-cell RNA sequencing, electrophysiology and immunostaining. We observed strong perturbations of tissue integrity, neuronal function and cellular transcriptomes. Under acyclovir treatment viral replication was stopped, but did not prevent HSV-1-driven defects such as damage of neuronal processes and neuroepithelium. Unbiased analysis of pathways deregulated upon infection revealed tumour necrosis factor activation as a potential causal factor. Combination of anti-inflammatory drugs such as necrostatin-1 or bardoxolone methyl with antiviral treatment prevented the damages caused by infection, indicating that tuning the inflammatory response in acute infection may improve current therapeutic strategies.
Site-specific recombinases (SSR), such as Cre and Flp recombinases, which enable DNA excision, insertion, and translocation, have been used for conditional target gene expression in mouse and other vertebrates. In this study, we evaluated another SSR, Dre-recombinase (Dre), which is functionally similar to Cre recombinase in porcine fibroblasts and embryos. For this study, 2 fragment DNA constructs (rox GFP-polyA and rox RFP-polyA) were combined with piggybac transposition expression vector (Kim et al. 2011 J. Vet. Med. Sci.) using a multisite gateway cloning system (MultiSite Gateway® Pro, Invitrogen, Carlsbad, CA, USA). The expression vector carrying rox-flanked green fluorescent protein (GFP) followed by red fluorescent protein (RFP) and transposase were transfected into kidney-derived porcine cells by nucleofection (Neon® Transfection System, Invitrogen). A GFP-expressing cell line, which was not expressing RFP, was established. And then rox-flanked GFP were removed by Dre transfection and RFP was expressed in the kidney cells. At the cellular level, this excision was confirmed by site-specific RT-PCR and sequencing. The rox-flanked GFP cells were reconstructed with enucleated oocytes and then the cloned embryos were cultured in porcine zygote medium-5. Dre was micro-injected into 1 of the 2-cell-stage blastomeres. After 6 days, RFP expression was observed on the part of embryos after microinjection. In conclusion, the data demonstrated that, like other SSR, Dre might be applied in conditional target gene expression for generating porcine biomedical models.
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