VP16 serine 375 is a critical determinant of herpes simplex virus exit from latency in vivo

Development of novel prevention and treatment strategies for herpes simplex virus (HSV) mediated diseases is dependent upon an accurate understanding of the central molecular events underlying the regulation of latency and reactivation. We have recently shown that the transactivation function of the virion protein VP16 is a critical determinant in the exit from latency in vivo. HSV-1 strain SJO2 carries a single serine to alanine substitution at position 375 in VP16 which disrupts its interaction with its essential co-activator Oct-1. Here we report that SJO2 is severely impaired in its ability to exit latency in vivo. This result reinforces our prior observations with VP16 transactivation mutant, in1814, in which VP16 interaction with Oct-1 is also disrupted and solidifies the importance of the VP16–Oct-1 interaction in the early steps in HSV-1 reactivation.     

Interferon-beta suppresses herpes simplex virus type 1 replication in trigeminal ganglion cells through an RNase L-dependent pathway

The induction of an antiviral state by type I interferons (IFN) was evaluated in primary trigeminal ganglion cell cultures using herpes simplex virus type 1 (HSV-1). Cells treated with mouse IFN-beta consistently showed the greatest resistance to HSV-1 infection in comparison to cells treated with IFN-alpha1, IFN-alpha4, IFN-alpha5, IFN-alpha6, or IFN-alpha9. The antiviral efficacy was dose-dependent and correlated with the induction of the IFN-inducible, antiviral genes, 2'-5' oligoadenylate synthetase (OAS) and double-stranded RNA-dependent protein kinase. In trigeminal ganglion cells deficient in the downstream effector molecule of the OAS pathway, RNase L, the antiviral state induced by IFN-beta was lost.     

Establishment of a quiescent herpes simplex virus type 1 infection in neurally-differentiated PC12 cells.

Rat pheochromocytoma (PC12) cells differentiated with nerve growth factor (Nd-PC12) were used to investigate the establishment of a non-productive herpes simplex virus type 1 (HSV-1) infection that is reversible. The results of this work are as follows: (i) Nd-PC12 cultures could be maintained as long term (>7 weeks) non-dividing cultures only when plated on collagen-coated dishes in the absence of serum; (ii) Infection of Nd-PC12 with HSV-1 strains KOS and 17 in the transient presence of acycloguanosine (ACV) resulted in all cultures free of detectable levels of infectious virus at the time of ACV removal and ACV was not needed to maintain the non-productive quiescent state in the subsequent 8 weeks; (iii) These persistently infected and quiescent (QIF)-PC12 cultures demonstrated both spontaneous and forskolin-inducible virus production, at low (5%) and high frequencies (92-100%), respectively during the first 2 weeks post-ACV withdrawal. (iv) In contrast to other in vitro models, HSV-1 failed to reactivate following removal of nerve growth factor. (v) A high percentage of QIF-PC12 cultures (50-100%) produced virus in response to forskolin treatment as long as 7 weeks post-ACV withdrawal. (vi) Expression of HSV-1 productive genes (i.e. alpha0, alpha4, alpha27, UL30 and UL18) dropped precipitously in the presence of ACV and remained undetectable or continued to decline following its removal, whereas the levels of LAT and the host gene G3PDH remained relatively constant throughout the 31 day study period as measured by RT-PCR. These results indicate that QIF-PC12 cells offer a novel, neuronal cell culture system that may enhance our ability to study HSV-1 reactivation from a cryptic, latent-like, non-productive state in the absence of replication inhibitors.     

Resistance to ocular herpes simplex virus type 1 infection in IL-12 transgenic mice

Interleukin-12 (IL-12) is a potent inflammatory cytokine that influences the innate and adaptive immune response to microbial pathogens including viruses. It was reasoned that constitutive IL-12 production in mice would enhance resistance to herpes simplex virus type 1 (HSV-1) infection. To test this hypothesis, transgenic mice expressing the p35 and p40 genes of IL-12 under a glial fibrillary acidic protein (GFAP) promoter were ocularly infected with HSV-1. These mice displayed increased survival and reduced viral titers in the eye, trigeminal ganglion (TG), and brain stem in comparison to wild type controls. Consistent with these results, HSV-1 immediate early and early gene expression were reduced to 50-130-fold in the trigeminal ganglion of infected transgenic mice compared to infected, non-transgenic counterparts as determined by real time PCR. Associated with viral resistance, IL-12 and IFN-gamma mRNA levels and IL-12 protein were elevated in the eyes of the transgenic versus non-transgenic mice during the acute infection. Collectively, the data show the inherent resistance of mice constitutively expressing IL-12 to ocular HSV-1 infection-an outcome that is independent of the adaptive immune system at the time of infection.     

Immunofluorescence detection of herpes simplex virus type 1 antigen in cerebrospinal fluid cells of experimentally infected mice

Experimentally infected mice were used to assess the value of immunofluorescence (IF) procedures in cerebrospinal fluid (CSF) cells in comparison with routine viral culture of CSF for diagnosis of herpes simplex type-1 (HSV-1) encephalitis. Virus specific antigen was detected by immunofluorescence in the majority of CSF cells in 75% of infected animals. In contrast, only 20% of infected mice had positive viral cultures, which sometimes took as long as a week to show a cytopathological effect (CPE). It is concluded that antigen detection by immunofluorescence is a rapid, specific and sensitive technique for demonstrating HSV-1 antigen in CSF cells of experimentally infected mice. Our results put forward a plea for further studies using these techniques on CSF samples from patients with suspected HSV-1 encephalitis. The prerequisites for reliable interpretation of results have been defined in this study.     

Topical application of the cornea post-infection with plasmid DNA encoding interferon-alpha1 but not recombinant interferon-alphaA reduces herpes simplex virus type 1-induced mortality in mice.

A study was undertaken to compare the efficacy of recombinant interferon (rIFN)-alphaA to plasmid DNA encoding IFN-alpha1 against ocular herpes simplex virus type 1 (HSV-1) infection. The topical application of rIFN-alphaA (100-300 units/eye) onto the cornea of mice subsequently infected 24 h later with HSV-1 antagonized viral-induced mortality. The enhancement in cumulative survival in the rIFN-alphaA-treated mice correlated with a reduction of viral titers recovered in the eye and trigeminal ganglion (TG) at 3 and 6 days post-infection. The protective effect was site-specific such that when rIFN-alphaA was administered orally or intranasally, no efficacy against HSV-1 was observed. However, the protective effect was time-dependent. Specifically, when the rIFN-alphaA (100-1000 units/eye) was administered at 24 h post-infection, no protective effect was observed against HSV-1 compared to the vehicle-treated group. In contrast, plasmid DNA (100 microg/eye) containing the IFN-alpha1 transgene showed significant protection when topically applied 24 h post-infection. Although the transgene was found to traffic distal from the site of application (eye), including the trigeminal ganglion and the spleen where CD11b(+) and CD11c(+) cells express the transgene, the migration of the transgene did not correlate with efficacy. Collectively, the results suggest that naked DNA encoding type I IFN applied post-infection provides a greater degree of protection against ocular HSV-1 infection in comparison with recombinant protein effectively antagonizing viral replication and spread.     

Search for evidence of herpes simplex virus, type 1, or varicella-zoster virus infection in postmortem brain tissue from schizophrenic patients.

The highly sensitive polymerase chain reaction (PCR) was used to search for herpes simplex virus type 1 (HSV-I) or varicella-zoster virus (VZV) in the DNA extracted from postmortem temporal cortex samples of 8 schizophrenic subjects, 8 nonschizophrenic suicide victims and 8 normal controls. HSV-I or VZV-specific DNA amplification was not detected in any of the samples studied.     

The herpes simplex virus type 1 early gene (thymidine kinase) promoter is activated in neurons of brain,but not trigeminal ganglia,of transgenic mice in the absence of viral proteins

Latent infection of sensory neurons and reactivation are necessary for maintenance of herpes simplex virus type 1 (HSV-1) in its host population. It has been proposed that the HSV-1 early gene, thymidine kinase (TK), may play an important regulatory role in this process. The authors used reporter transgenic mice to test whether sensory ganglia neurons could activate the HSV-1 TK reporter transgene in the absence of viral proteins. The reporter transgene was activated in subsets of neurons in the brain but was not activated in sensory ganglia neurons following a variety of experimental manipulations. These results do not support a role for TK in regulation of the latent viral genome.     

Tau cleavage at D421 by caspase-3 is induced in neurons and astrocytes infected with herpes simplex virus type 1

Herpes Simplex Virus Type 1 (HSV-1) is ubiquitous, neurotropic, and the most common pathogenic causes of sporadic acute encephalitis in humans. Herpes simplex encephalitis is associated with a high mortality rate and significant neurological, neuropsychological, and neurobehavioral sequelae, which afflict patients for life. HSV-1 infects limbic system structures in the central nervous system and has been suggested as an environmental risk factor for Alzheimer's disease. However, the possible mechanisms that link HSV-1 infection with the neurodegenerative process are still largely unknown. In a previous study we demonstrated that HSV-1 triggers hyperphosphorylation of tau epitopes serine202/threonine205 and serine396/serine404 in neuronal cultures, resembling what occurs in neurodegenerative diseases. Therefore, the aim of the present study was to evaluate at the cellular level if another event associated with neurodegeneration, such as caspase-3 induced cleavage of tau, could also be triggered by HSV-1 infection in primary neuronal and astrocyte cultures. As expected, induction of caspase-3 activation and cleavage of tau protein at its specific site (aspartic acid 421) was observed by Western blot and immunofluorescence analyses in mice neuronal primary cultures infected with HSV-1. In agreement with our previous study on tau hyperphosphorylation, tau cleavage was also observed during the first 4 hours of infection, before neuronal death takes place. This tau processing has been previously demonstrated to increase the kinetics of tau aggregation in vitro and has also been observed in neurodegenerative pathologies. In conclusion, our findings support the idea that HSV-1 could contribute to induce neurodegenerative processes in age-associated pathologies such as Alzheimer's disease.     

Distribution of herpes simplex virus type 1 in human geniculate and vestibular ganglia: implications for vestibular neuritis.

Vestibular neuritis is a common cause of partial unilateral vestibular paralysis, which usually spares posterior semicircular canal function. The cause is assumed to be a viral reactivation of latent herpes simplex virus type 1 (HSV-1) in human vestibular ganglia. The existence of an anastomosis between the intermediate nerve and the superior vestibular nerve suggests the question of whether selective affliction of the superior vestibular nerve is the result of migration of HSV-1 from the geniculate ganglion along this faciovestibular anastomosis. We determined the distribution of HSV-1 among geniculate ganglia, vestibular ganglia, and within Scarpa's ganglion by examining 35 human temporal bones by polymerase chain reaction. HSV-1 was found in 66% of geniculate ganglia and 60% of vestibular ganglia; all examined parts of vestibular ganglia were almost equally HSV-1 infected. Our data provided no support for viral migration along this anastomosis or for a preferential latency of HSV-1 in the superior vestibular nerve. We suggest that the common double innervation of the posterior ampulla by two nerves running in two separate bony canals could offer an alternative explanation for the regular sparing of posterior canal function in vestibular neuritis.     

Next-generation sequencing technology as a powerful detection and semi-quantitative method for herpes simplex virus type 1 in pediatric encephalitis

This case report presents a 1-year-old boy from China, with sudden onset of fever, convulsion, and sleepiness, screened for viral DNA in blood and cerebrospinal fluid (CSF) sample using next-generation sequencing (NGS) to diagnose herpes simplex virus type 1 (HSV-1) encephalitis, further validated by PCR. After acyclovir treatment, the patient’s symptom disappeared and HSV-1 DNA unique reads decreased from 4290 to zero in CSF, and from 23 to zero in blood detected by NGS. The clinical presentation and outcome were consistent with the pathogenic diagnostic results of NGS. NGS of CSF samples can be used as a diagnostic assay for HSV-1 encephalitis and also might be a semi-quantitative method for evaluation of treatment effect.     

Herpes simplex virus type 1 ICP4 deletion mutant virus d120 infection failed to induce apoptosis in nerve growth factor-differentiated PC12 cells

It has been suggested that terminally differentiated neuronal cells and mitotic cells respond differently in many aspects to herpes simplex virus type 1 (HSV-1) infection. The ICP4-deleted, Us3-defective, HSV-1 mutant strain d120 induces classical apoptosis in a variety of mitotic cell lines. Its behavior in postmitotic cells is not known. Here the authors report that mutant d120 virus failed to induce apoptosis in neuronal-like, nerve growth factor (NGF)-differentiated PC12 cells. More strikingly, rather than inducing apoptosis, d120 infection prolonged the life of nondividing NGF-differentiated PC12 cells in the culture flask. The virus genome had a half-life of 30 days. Unlike in other cells, such as Vero, neither wild-type nor d120 infection of NGF-differentiated PC12 cells induced the nuclear factor (NF)-kappa B p65 pathway, which has been associated with virus-induced apoptosis. Thus, the authors demonstrate, for the first time, that a potent apoptosis inducer mutant d120 failed to induce apoptosis in neuronal-like NGF-differentiated PC12 cells, unlike a number of other cell lines studied. The possible mechanisms involved in the failure of d120 to induce apoptosis in neuronal-like NGF-differentiated PC12 cells are discussed.