Intracerebral recombinant HSV-1 vector does not reactivate latent HSV-1

Herpes simplex virus type-1 (HSV-1) has been used for gene delivery in the nervous system for the treatment of brain tumors and other neurological diseases. In most protocols, recombinant viruses containing the gene of interest are directly injected into the brain. Since many people harbor latent wild-type HSV-1 virus in sensory ganglia and other regions of the nervous system, there is a potential risk that the injected recombinant virus may reactivate the latent wild-type virus to cause severe encephalitis. The present study used two rat latent infection models to evaluate this risk. Adult rats were infected with wild-type kos by cornea scarification or by intracerebral injection, and after the establishment of latency, the ICP6(-) strain hrR3 was injected intracerebrally. In the control group, the latent virus was reactivated by treatment of cadmium sulfate. Viral shedding from tears was detected by incubation with Vero cells, and the trigeminal ganglia, cortical tissue and the eyes were collected to detect reactivated wild-type virus by RT-PCR. Our results showed that while the reactivated wild-type virus was readily detectable in the cadmium-sulfate-treated animals, intracerebrally infected hrR3 did not reactivate the latent virus in either the corneal model or the cerebral model. These results indicate that intracranial injection of partially defective recombinant virus may bear little risk of reactivating latent wild-type virus harbored in the sensory ganglia or the brain in our animal model.     

The Epstein-Barr virus in patients with infectious endocarditis

Serological markers of Epstein-Barr virus (EBV) infection has been investigated in 28 patients with infectious endocarditis. In 75% of patients IgM antibodies to "early" antigen of the virus which are the marker of active viral infection occurred vs 6.2% among healthy blood donors. Specific for infectious endocarditis reaction profile (anti-EBV combination in one person) indicates reactivation of latent viral infection. The conclusion is made on the necessity of further investigation of both the role of EBV in pathogenesis of pyoseptic diseases and immunologic mechanisms for reactivation of latent viral infections.     

9-(4-Hydroxybutyl)-N2-phenylguanine (HBPG), a thymidine kinase inhibitor, suppresses herpes virus reactivation in mice

In cells of the nervous system, which have little or no cellular thymidine kinase, the pharmacologic inhibition of viral thymidine kinase may prevent the reactivation of herpes virus, which requires phosphorylated thymidine for replication. We tested a newly synthesized inhibitor of viral thymidine kinase, 9-(4-hydroxybutyl)-N2-phenylguanine (HBPG) for its capacity to suppress the reactivation of herpes simplex virus type 1 (HSV-1) in vivo. Mice, latently infected with McKrae strain HSV-1, were treated with intraperitoneal injections of HBPG in a corn oil vehicle (200 mg/kg every 3 h for a total of ten doses), and subjected to hyperthermic stress to stimulate viral reactivation immediately before the third treatment. Three h after the last treatment, the mice were sacrificed, and the presence of infectious virus was determined by culture of ocular surface swabs and trigeminal ganglionic homogenates. Additionally, viral DNA in ganglionic extracts was analyzed by quantitative PCR. Controls included latently infected, stressed animals receiving injections of corn oil vehicle only, and latently infected, drug- and vehicle-treated, unstressed animals. HBPG had a statistically significant inhibitory effect on hyperthermia-induced viral reactivation. Homogenates of trigeminal ganglia and ocular surface swabs from HBPG-treated animals were less likely to contain infectious virus than those of infected, vehicle-treated, stressed controls (P < 0.005, ANOVA). Unstressed controls showed no reactivation. Quantitation of viral DNA in ganglionic extracts demonstrated a 100-fold reduction in the amount of viral DNA in the ganglia of HBPG-treated animals, compared with vehicle-treated controls (P < 0.05, ANOVA). The results indicate that HBPG has an inhibitory effect when given systemically for the suppression of herpes virus reactivation in mice.     

Cadmium toxicity and distribution in metallothionein-I and -II deficient transgenic mice

To date, numerous correlative studies have implicated metallothionein in the detoxification of heavy metals and in the regulation of metal distribution within an organism. In the present study cadmium-binding proteins (metallothionein equivalents), cadmium acute toxicity, and cadmium distribution in tissues and subcellular fractions were compared in metallothionein-I and -II deficient (MT-/-) mice and the parental strain carrying intact metallothionein genes (MT+/+) to determine if the absence of metallothionein altered any of these parameters. In an uninduced state, MT-/- mice expressed lower levels of cadmium-binding proteins relative to MT+/+ mice in several tissues. Administration of zinc enhanced the levels of cadmium-binding proteins in liver, small intestine, kidney, pancreas, and male sex organs, but not in cecum or brain of MT+/+ mice compared to zinc pretreated MT-/- mice. The cadmium LD50 was similar for MT-/-, MT+/+, and zinc-pretreated MT-/- mice (15-17 mumol CdCl2/kg body weight delivered i.p.). However, zinc-pretreated MT+/+ mice had a cadmium LD50 of 58-63 mumol CdCl2/kg body weight. Over two-thirds of cadmium was found in liver, cecum, small intestine, and kidney in both MT+/+ and MT-/- mice; therefore, metallothionein levels do not appear to play a major role in the tissue distribution of cadmium. However, after zinc pretreatment, MT+/+ mice accumulated more cadmium in the liver and less in other tissues, whereas the amount of cadmium in the liver was not altered by zinc pretreatment in MT-/- mice. In general, the cytosolic/particulate ratio of cadmium was significantly higher in tissues of noninduced MT+/+ mice relative to MT-/- mice. This difference was accentuated after zinc pretreatment. Together these results indicate that basal levels of metallothionein do not protect from the acute toxicity of a single i.p. cadmium challenge. Furthermore, it does not appear that the cytosolic compartmentalization of cadmium is correlated with reduced toxicity.     

Influence of ethanol on cadmium accumulation and its impact on lipid peroxidation and membrane bound functional enzymes (Na+, K(+)-ATPase and acetylcholinesterase) in various regions of adult rat brain

Influence of ethanol on cadmium accumulation and its effect on metallothionein induction, binding of cadmium to metallothionein, lipid peroxidation and membrane bound functional enzymes such as (Na(+)-K+)-ATPase and acetylcholinesterase in various regions of adult rat brain was investigated. Ethanol (2 g/kg body wt) and cadmium (1 mg/kg body wt) were administered alone as well as in combination to different groups of rats, i.p., for a period of 1 week. It was observed that cadmium when co-administered with ethanol led to pronounced increase in cadmium accumulation in various regions of the brain. This ethanol induced accumulation of cadmium did not induce the synthesis of metallothionein and also did not bind to this protein in brain and mainly was present as non-metallothionein bound cadmium. It lead to a significant increase in lipid peroxidation and inhibition of membrane bound functional enzymes; (Na(+)-K+)-ATPase and acetylcholinesterase in various regions of the brain indicating functional impairment. The results of the present study imply that ethanol renders the adult brain more susceptible to cadmium neurotoxicity. Corpus striatum and cerebral cortex are more vulnerable regions than other areas of the brain.     

Modulation of Langerhans cell phenotype, migration and maturation by agents known to cause herpes simplex virus reactivation in a mouse model

The factors which control whether an asymptomatic or symptomatic infection in the skin follows reactivation of herpes simplex virus (HSV) in the sensory ganglia remain unclear. Xylene, retinoic acid and dimethylsuphoxide (DMSO) all stimulate similar levels of virus reactivation in the ganglia of latently infected mice, yet give rise to high, moderate and very low incidences of clinical skin disease, respectively. This observation suggests that the chemicals may be capable of affecting the local microenvironment of the skin. In the present study we have investigated the effects of xylene, retinoic acid and DMSO on Langerhans cell (LC) phenotype and function. The results show that none of the chemicals inhibit the phenotypic maturation of Langerhans cells in vitro. However, DMSO induced a dramatic elevation in class II MHC expression on Langerhans cells. In addition, fewer antigen-bearing dendritic cells (DC) were evident in the lymph nodes if xylene was administered to the skin prior to challenge with the contact sensitizer, FITC. None of the chemicals inhibited the accumulation of DC in the lymph nodes after such an antigen-challenge, suggesting that xylene was affecting not migration, but antigen uptake. The inhibition of antigen uptake by xylene together with the activation of LC in terms of class II expression by DMSO may explain, in part, the relative abilities of these chemicals to allow the establishment of recurrent HSV disease in the skin.     

Induction of bilateral retinal necrosis in mice by unilateral intracameral inoculation of a glycoprotein-C deficient clinical isolate of herpes simplex virus type 1

Herpes simplex virus can cause acute retinal necrosis, a blinding retinal disease in man. A unilateral intracameral inoculation of herpes simplex virus type 1 (HSV-1) in mice induces retinal necrosis primarily in the contralateral eye and provides an experimental model for the disease. Previous studies suggested that a major envelope glycoprotein of HSV-1, glycoprotein C (gC), is required for retinal necrosis. We studied HSV-1 strain TN-1, a gC-deficient clinical isolated from a lesion of herpetic keratitis, for its pathogenicity in mice with an intracameral inoculation of the virus and found that TN-1 could induce severe necrotizing retinitis in both inoculated and uninoculated eyes of BALB/c mice. Inoculation with a lower dose of TN-1 resulted in a unilateral necrotizing retinitis in the uninoculated eyes. Tissue virus titration of infected mice killed at various times after inoculation detected an infectious virus in various organs including the eyeballs, trigeminal ganglia, brain and adrenal glands. Anterior chamber-associated immune deviation (ACAID) was observed in TN-1-inoculated mice as well as in mice inoculated with gC-positive laboratory strain KOS 7 days postinoculation. Our findings suggested that gC of HSV-1 is not necessary for either the induction of retinal necrosis, neural spread of the virus, or ACAID.     

Effect of a live attenuated intranasal vaccine on latency and shedding of feline herpesvirus 1 in domestic cats

A prospective study was conducted that evaluated duration of virus shedding through acute and experimentally-induced recurrent disease episodes in 12 cats, and tissue distribution of latent infections, following intranasal vaccination with a temperature sensitive (ts) mutant strain of feline herpesvirus 1 (FHV1). Six of these cats were challenged with a virulent field strain of the agent to assess the extent to which vaccination affected subsequent shedding of virus and the establishment of latent infections. Virus isolation (VI) tests were done in parallel with a polymerase chain reaction (PCR) assay to compare the performance of each diagnostic method. The PCR confirmed that all 12 cats shed virus throughout the periods of vaccination, challenge or mock-challenge, and a cyclophosphamide-dexamethasone stress protocol to reactivate latent infections. Shedding to the tsFHV1 was documented by VI for up to 25 days following vaccination and for up to 15 days following challenge, but not after experimental stress. Overall, FHV1 was present in 144 of 300 (48%) cat-days of testing by PCR compared to 32 of 300 (11%) by VI. The frequency and distribution of latent FHV1 detected in neurologic, ophthalmic, and other tissues by PCR were identical for vaccine-only and vaccine-challenge groups, thereby disproving previous hypotheses that tsFHV1 mutants administered by this route protect against latency.     

A mouse model for varicella-zoster virus latency

Following primary infection with varicella-zoster virus (VZV), the virus establishes a latent infection in humans. The molecular pathogenesis of VZV latency is not well understood, mainly due to the lack of an adequate animal model. We report here that we have developed a mouse model for VZV infection that involves corneal inoculation of mice. Although infected animals showed no signs of disease, most of the animals could not eliminate the virus early after infection. By PCR, we demonstrated that at 33 days post-infection (p.i.), viral DNA was still present in more than 60% of the animals (14/21). VZV DNA was most frequently detected in the trigeminal ganglia (7/14) followed by the brain stem (10/21), kidneys (4/21), spleen (3/20), liver (2/21) and brain (1/21). By in situ hybridization, a few cells positive for VZV mRNA were detected in the trigeminal ganglia, brain stem, cerebellum and spleen of a small number of the infected animals as late as 33 days p.i. No viral proteins were detected at the site of inoculation or in any other tissue by immunostaining. Our results suggest that VZV spreads in mice by both viraemia and axonal transport and establishes a non-productive (latent) infection.     

Oral inoculation of SCID mice with an attenuated herpes simplex virus-1 strain causes persistent enteric nervous system infection and gastric ulcers without direct mucosal infection

BACKGROUND: After placement of herpes simplex virus type 1 (HSV-1) into the esophageal lumen of BALB/c mice, the virus replicated in enteric neurons within the esophagus and stomach and was transported to the sensory ganglia of the vagus nerve (nodose ganglia), where viral replication also occurs and where ultimately a long term latent infection is established. This described infection of immunocompetent mice primarily involved neuronal cells and associated satellite cells. EXPERIMENTAL DESIGN: Severe combined immunodeficient (SCID) mice were orally infected with an attenuated strain of HSV-1 to better identify sites of viral involvement in the gastrointestinal tract, particularly the mucosa. RESULTS: Three to five weeks after oral inoculation of SCID mice with HSV-1 strain in1814, a persistent viral infection of the gastrointestinal tract was established in most of the mice. Extensive viral replication was detected by immunohistochemistry throughout pathways of the vagus nerve and within the intrinsic enteric nervous system. Despite this ultimately fatal infection, viral replication in the gut occurred almost exclusively in enteric neurons and their processes; viral proteins were occasionally seen in smooth muscle cells immediately adjacent to heavily infected enteric ganglia. More than 50% of these persistently infected mice, when killed 18 to 31 days postinoculation, had gastric ulcers that were identified grossly and histologically. Only one of the 40 gastric ulcers was found to contain viral Ag. The remaining ulcers, although devoid of viral proteins, were found adjacent to virus-infected ganglia. CONCLUSIONS: HSV-1 can enter enteric neurons with minimal initial mucosal involvement, and once inside the nervous system, the virus is contained there despite the absence of a specific host immune response. Furthermore, chronically infected enteric neurons may provide an indirect mechanism for the pathogenesis of gastric ulcers in these immune-deficient mice.     

Epstein-Barr virus protein LMP2A regulates reactivation from latency by negatively regulating tyrosine kinases involved in sIg-mediated signal transduction

Like other herpesviruses, Epstein-Barr Virus (EBV) persists in its host through an ability to establish latent infection with episodic reactivations. In latent infection EBV expresses an integral membrane protein LMP2A that regulates reactivation from latency. LMP2A is constitutively tyrosine phosphorylated and is associated with lyn and syk tyrosine kinases. The activity of lyn is substantially reduced. In EBV-infected cells in which LMP2A is expressed, crosslinking of sIg fails to trigger the protein tyrosine kinase signal cascade, tyrosine phosphorylation of cell proteins does not change, second messengers are not generated, and lytic EBV infection is not induced. In contrast, crosslinking of sIg on cells infected with EBV recombinants with null mutations in LMP2A results in transient tyrosine phosphorylation of lyn, syk, phospholipase C gamma 2 and phosphatidylinositol-3' kinase, transiently increased intracellular free calcium, and reactivation of lytic EBV infection. These studies describe a novel molecular regulator of herpesvirus latency and focus attention on the importance of transmembrane signal transduction in herpes virus reactivation from latency. They support the working hypothesis that the identification of ligand-receptor interactions that can result in the induction of reactivation will provide an important inroad toward the delineation of the molecular mechanism, which govern herpesvirus reactivation from latency.     

Lack of coordinate control of ferritin and transferrin receptor expression during rat liver regeneration

Cytomegalovirus (CMV) is the most important infectious agent in transplant recipients. The critical step in the pathogenesis of CMV infection is the reactivation of latent virus, which is affected by the immunosuppressive therapy and/or alloantigenic stimulation. The clinical effects of CMV infection include CMV disease (syndrome), an immunosuppressed state, and allograft injury. Recently, the incidence of serious CMV diseases after transplant has been decreased, probably due to the advance in the method for rapid diagnosis, the ganciclovir administration, and the effective prevention of CMV diseases. Seronegative or filtered blood products, CMV immune globulin, and prophylactic or preemptive therapy with ganciclovir appear contribute to the improvement in the prophylaxis for CMV diseases after transplant. Antigenemia-guided early treatment may be promising for the effective prevention of CMV diseases after transplant.     

Effect of maternally acquired Aujeszky's disease (pseudorabies) virus-specific antibody in pigs on establishment of latency and seroconversion to differential glycoproteins after low dose challenge

This study investigated whether (1) passively immune pigs could become latently infected after challenge with low doses of wild type pseudorabies virus (PRV) and (2) if seroconversion to PRV could be consistently detected using two commercially available differential diagnostic ELISAs. Three litters of piglets with passively acquired PRV serum neutralizing (SN) antibody (geometric mean titers 47.03 to 95.10) were challenged at 6 to 12 days of age with 236 to 500 TCID50 of Shope strain virus; pigs were vaccinated at 11 weeks of age with a commercially available genetically engineered vaccine (TK- gE- gG- Iowa S62 strain PRV). Vaccination was intended to reduce the risk of reactivation of latent infection resulting in spread of virulent PRV infection to previously uninfected pigs during the experiment. Vaccination at this age also approximated common field practices in infected herds. After 15 weeks, all challenged pigs were seropositive on the PRV glycoprotein (g or gp) E differential ELISA but were seronegative on the gG differential ELISA. All three challenge groups had pigs that were latently infected as evidenced by the detection of PRV DNA by polymerase chain reaction (PCR) assay of their trigeminal ganglia (TG). There was a significant inverse relationship observed for age at challenge and the proportion of PCR positive pigs in the group 15 weeks postchallenge (p = 0.0004). This trend was independent of the passively acquired PRV SN antibody titers at challenge. In this study, passively acquired antibody did not provide protection against establishment of latent infection in piglets after exposure to low doses of virulent PRV. These latent infections were detected serologically by only one of two available differential diagnostic ELISA.     

Murine coronavirus-induced subacute fatal peritonitis in C57BL/6 mice deficient in gamma interferon

Gamma interferon-deficient (IFN-gamma-/-) mice with a C57BL/6 background were infected intraperitoneally with mouse hepatitis virus strain JHM (JHMV). In contrast to IFN-gamma-+/- and IFN-gamma+/+ mice, JHMV persisted in IFN-gamma-/- mice and induced death during the subacute phase of the infection. Unexpectedly, infected IFN-gamma-/- mice showed severe peritonitis accompanying the accumulation of a viscous fluid in the abdominal and thoracic cavities in the subacute phase. Destructive changes of hepatocytes were not observed. Administration of recombinant IFN-gamma protracted the survival time of IFN-gamma-/- mice after JHMV infection. These results demonstrate that IFN-gamma plays a critical role in viral clearance in JHMV infection. They also show that a resultant persistent JHMV infection induces another form of disease in IFN-gamma-/- mice, which bears a resemblance to feline infectious peritonitis in cats.     

Immunization with a single major histocompatibility complex class I-restricted cytotoxic T-lymphocyte recognition epitope of herpes simplex virus type 2 confers protective immunity

We have evaluated the potential of conferring protective immunity to herpes simplex virus type 2 (HSV-2) by selectively inducing an HSV-specific CD8(+) cytotoxic T-lymphocyte (CTL) response directed against a single major histocompatibility complex class I-restricted CTL recognition epitope. We generated a recombinant vaccinia virus (rVV-ES-gB498-505) which expresses the H-2Kb-restricted, HSV-1/2-cross-reactive CTL recognition epitope, HSV glycoprotein B residues 498 to 505 (SSIEFARL) (gB498-505), fused to the adenovirus type 5 E3/19K endoplasmic reticulum insertion sequence (ES). Mucosal immunization of C57BL/6 mice with this recombinant vaccinia virus induced both a primary CTL response in the draining lymph nodes and a splenic memory CTL response directed against HSV gB498-505. To determine the ability of the gB498-505-specific memory CTL response to provide protection from HSV infection, immunized mice were challenged with a lethal dose of HSV-2 strain 186 by the intranasal (i.n.) route. Development of the gB498-505-specific CTL response conferred resistance in 60 to 75% of mice challenged with a lethal dose of HSV-2 and significantly reduced the levels of infectious virus in the brains and trigeminal ganglia of challenged mice. Finally, i.n. immunization of C57BL/6 mice with either a recombinant influenza virus or a recombinant vaccinia virus expressing HSV gB498-505 without the ES was also demonstrated to induce an HSV-specific CTL response and provide protection from HSV infection. This finding confirms that the induction of an HSV-specific CTL response directed against a single epitope is sufficient for conferring protective immunity to HSV. Our findings support the role of CD8(+) T cells in the control of HSV infection of the central nervous system and suggest the potential importance of eliciting HSV-specific mucosal CD8(+) CTL in HSV vaccine design.