Herpes simplex virus latency and nucleoside analogues

A rapid isothermal CRISPR-Cas13a diagnostic test for genital herpes simplex virus infection

Prompt diagnosis is essential for managing herpes simplex virus types 1 and 2 (HSV-1/2). Existing diagnostic methods are not widely available that required expensive or additional equipment for conducting examinations and result readouts, which can limit their utility in resource-constrained settings. We successfully developed a CRISPR-Cas13a-based assay for the detection and genotyping of HSV. Our assay demonstrated a high sensitivity of 96.15% and 95.15% for HSV-1 and HSV-2, respectively, with a specificity of 100% compared to a commercial qPCR assay when tested on 194 clinical samples. Remarkably, the assay enables a limit of detection of 1 copy/μL of viral DNA, facilitated by an enhanced input of RPA product and is designed for both mobile app integration and colorimetric interpretation, allowing for semiquantitative readings. These findings highlight the excellent performance of our CRISPR-based diagnostic in detecting HSV and its potential for point-of-care testing in resource-constrained settings.

Antiviral agents for herpes simplex virus

This review starts with a brief description of herpes simplex virus types 1 and 2 (HSV-1 and HSV-2), the clinical diseases they cause, and the continuing clinical need for antiviral chemotherapy. A historical overview describes the progress from the early, rather toxic antivirals to acyclovir (ACV) which led the way for its prodrug, valacyclovir, to penciclovir and its prodrug, famciclovir (FCV). These compounds have been the mainstay of HSV therapy for two decades and have established a remarkable safety record. This review focuses on these compounds, the preclinical studies which reveal potentially important differences, the clinical trials, and the clinical experience through two decades. Some possible areas for further investigation are suggested. The focus shifts to new approaches and novel compounds, in particular, the combination of ACV with hydrocortisone, known as ME609 or zovirax duo, an HSV helicase-primase inhibitor, pritelivir (AIC316), and CMX001, the cidofovir prodrug for treating resistant HSV infection in immunocompromised patients. Letermovir has established that the human cytomegalovirus terminase enzyme is a valid target and that similar compounds could be sought for HSV. We discuss the difficulties facing the progression of new compounds. In our concluding remarks, we summarize the present situation including a discussion on the reclassification of FCV from prescription-only to pharmacist-controlled for herpes labialis in New Zealand in 2010; should this be repeated more widely? We conclude that HSV research is emerging from a quiescent phase.

Recurrent vaginal shedding of herpes simplex type 2 virus in the mouse and effects of antiviral therapy

A mouse model of recurrent herpes simplex type 2 (HSV-2) would improve our understanding of the immunobiology of recurrent disease and provide a useful model for evaluating antiviral treatments. We developed a model to evaluate recurrent vaginal HSV-2 shedding using high-dose acyclovir (ACV) therapy beginning at 3 days post infection (dpi). Treatment with 150mg/kg of ACV for 10 days increased survival to 80% following vaginal challenge with HSV-2 strain 186 and to 100% after challenge with strain MS. We then evaluated recurrent vaginal HSV-2 shedding in surviving mice. Although infectious virus was not detected in vaginal samples after 21dpi, viral DNA was detectable by PCR in 80% of mice (47/59) on at least 1 day, while no animal was positive for virus on every day. ACV therapy administered from day 21 to 31 significantly reduced recurrent virus shedding during this period from 7.3% (8/109 swabs) to 0.8% (1/126 swabs) (p=0.013). Lastly, ACV-rescued HSV-2-infected mice treated with cyclophosphamide at 35 and 38dpi rapidly succumbed, indicating that this model can be used to study immune control of the persistent infection. Thus, this model provides an inexpensive model for evaluating therapeutic strategies and immune control of persistent HSV.

Superior efficacy of helicase-primase inhibitor BAY 57-1293 for herpes infection and latency in the guinea pig model of human genital herpes disease

The efficacy of BAY 57-1293, a novel non-nucleosidic inhibitor of herpes simplex virus 1 and 2 (HSV-1 and HSV-2), bovine herpesvirus and pseudorabies virus, was studied in the guinea pig model of genital herpes in comparison with the licensed drug valaciclovir (Valtrex). Early therapy with BAY 57-1293 almost completely suppressed the symptoms of acute HSV-2 infection, and reduced virus shedding and viral load in the sacral dorsal root ganglia by up to three orders of magnitude, resulting in decreased latency and a greatly diminished frequency of subsequent recurrent episodes. In contrast, valaciclovir showed only moderate effects in this set of experiments. When treatment was initiated late during the course of disease after symptoms were apparent, that is, a setting closer to most clinical situations, the efficacy of therapy with BAY 57-1293 was even more pronounced. Compared with valaciclovir, BAY 57-1293 halved the time necessary for complete healing. Moreover, the onset of action was fast, so that only very few animals developed new lesions after treatment commenced. Finally, in a study addressing the treatment of recurrent disease in animals whose primary infection had remained untreated BAY 57-1293 was efficient in suppressing the episodes. In summary, superior potency and efficacy of BAY 57-1293 over standard treatment with valaciclovir was demonstrated in relevant animal models of human genital herpes disease in terms of abrogating an HSV infection, reducing latency and the frequency of subsequent recurrences. Furthermore, BAY 57-1293 shortens the time to healing even if initiation of therapy is delayed.

Towards an understanding of the molecular basis of herpes simplex virus latency

The survival strategy of herpes simplex virus centres on the establishment of latency in sensory neurons innervating the site of primary infection followed by periodic reactivation to facilitate transmission. This is a highly evolved and efficient survival mechanism, which despite being the subject of intense research, has proven remarkably difficult to dissect at a molecular level. This review will focus on data, emerging from both in vitro and in vivo model systems, which provide a framework for a mechanistic understanding of latency and the existence and possible significance of non-uniform latent states.

Observations on recovery from and recurrence of HSV-2 infections in adult mice that were rescued from lethal vaginal infection by antiviral therapy

An adult mouse model for studies of latency and recurrence after vaginal HSV-2 infection is not available at present, largely because the infection kills most mice within 14 days. We describe here an antiviral therapy that rescues most vaginally infected mice from death. Vaginally infected mice were nearly all rescued by combined treatment with one dose of monoclonal anti-HSV glycoprotein D 3 days after infection plus valacyclovir in the drinking water on days 3, 4, 5, 7, 9, 11, 13, and 15 after infection. At 60 days after infection, PCR measurements revealed that most rescued mice had viral DNA in their lumbosacral dorsal root ganglia, lumbosacral spinal cords, and paracervical autonomic ganglia, consistent with the possibility that latent infections were established. At this time, immunolabeling revealed CD45+ lymphoid cells in these neural tissues in rescued mice but not in normal control mice. In vivo depletion of T lymphocytes with monoclonal antibodies caused a recurrence of herpes illness symptoms earlier and in a larger proportion of rescued mice than was observed in non-depleted rescued mice. Interestingly, many rescued mice (46/114) spontaneously developed a syndrome of typical herpes illness symptoms that began with ruffled fur on a mouse that previously had sleek fur and progressed to arched backs, feeble gait, hindlimb paralysis, and death or euthanasia, or in some cases to recovery to health. This high incidence of apparent spontaneous recurrence of HSV-2 infection in rescued mice suggests that it may be possible, with some refinement of the procedure, to obtain an effective adult mouse model for studies of therapeutic vaccination to inhibit or prevent HSV-2 recurrence after genital tract infection.

Parameters of CpG oligodeoxynucleotide-induced protection against intravaginal HSV-2 challenge

Synthetic oligodeoxynucleotides (ODN) containing unmethylated CpG dinucleotides within the context of certain flanking bases (CpG motifs) have been shown to induce potent innate and adaptive immune responses. Vaginal delivery of CpG ODN alone protects mice from vaginal herpes simplex virus type-2 (HSV-2) challenge. Here, we investigated the importance of timing of delivery, formulation, route and dose of vaginally administered CpG ODN in the prevention or treatment of intravaginal (IVAG) HSV-2 infection. Mice treated intravaginally with CpG ODN containing a phosphorothioate backbone 24 hours prior to IVAG HSV-2 challenge survived infection, showed minimal vaginal pathology, and had virtually no detectable virus in vaginal washes, when compared to mice treated with non-CpG ODN. Genital treatment of HSV-2 infected mice with CpG ODN 4 hours after infection resulted in increased survival and decreased pathology and vaginal virus titers, whereas treatment of infected mice with CpG ODN 24 and 72 hours after IVAG HSV-2 infection had no effect on disease progression. Both liquid and solid (delivered on a bio-erodible muco-adhesive film) formulations of CpG ODN were effective in protection against genital HSV-2 following vaginal delivery. Lastly, IVAG delivery of 10 micro g of CpG ODN protected as well as a 100 micro g dose.

Inhibition of HSV-1 replication and reactivation by the mutation-insensitive transcription inhibitor tetra-O-glycyl-nordihydroguaiaretic acid

Methylated derivatives of nordihydroguaiaretic acid (NDGA)were previously shown to be potent mutation-resistant inhibitors of herpes simplex virus type 1 (HSV-1) which target Sp1 protein binding to critical viral promoters. The hydrophobic nature of these agents, however, renders them relatively water-insoluble and, therefore, limits their applicability. We report here on the anti-HSV-1 properties of a related but water-soluble glycylated derivative of NDGA, tetra-O-glycyl-NDGA (G(4)N). In yield reduction assays, G(4)N inhibited replication of laboratory and clinical strains of wild type HSV-1 and ACV-resistant (HSV-1(R)) strains of HSV-1 in a dose-dependent manner, with average IC(50) values of 4.7 and 3.2 microM against wild-type and HSV-1(R) strains, respectively. An MTT-based cytotoxicity assay revealed a TC(50) value of 73.2 microM for G(4)N on Vero cells, with no reduction in viability detected at concentrations below 30 microM. Similar to its methylated counterparts, G(4)N was found to inhibit transcription of the HSV-1 ICP4 gene, a major immediate early viral regulator, and gel mobility shift assays showed it can block Sp1 protein binding to cognate sites on the ICP4 promoter. In anticipation of its potential use as a systemic anti-HSV-1 agent, we tested G(4)N in a murine trigeminal ganglia (TG) explant model system, and found G(4)N was able to prevent HSV-1 reactivation from explanted and cultured latently infected TG.

Use of immunostimulatory sequence-containing oligonucleotides as topical therapy for genital herpes simplex virus type 2 infection

Synthetic oligonucleotides containing CpG motifs in specific sequence contexts have been shown to induce potent immune responses. We have evaluated mucosal administration of two immunostimulatory sequence (ISS)-containing phosphorothioate-stabilized oligonucleotides for antiherpetic efficacy in animal models. The ISS oligonucleotides, suspended in phosphate-buffered saline, were tested in mouse and guinea pig vaginal models of herpes simplex virus type 2 (HSV-2) infection. For comparison, groups of untreated, non-ISS oligonucleotide-treated, and acyclovir-treated animals also were monitored. The results indicated that vaginal epithelial application of ISS (up to 6 h after viral inoculation) with mice lethally challenged with HSV-2 delayed disease onset and reduced the number of animals that developed signs of disease (P = 0.003). ISS application significantly increased survival rates over those of controls (P = 0.0014). The ISS also impacted an established infection in the guinea pig model of HSV-2 disease. A single administration of ISS (21 days after viral inoculation) significantly reduced the frequency and severity of HSV-2 lesions compared to results with non-ISS oligonucleotide-treated and untreated guinea pigs (P < 0.01). HSV-2 is shed from the vaginal cavity of the guinea pig in the absence of lesions, similar to the case with humans. As an additional indication of ISS efficacy, the magnitude of viral shedding also was significantly reduced in ISS-treated animals (P < 0.001). These effects appeared to be immunologically mediated, since ISS had no direct effect on HSV-2 replication in vitro using standard plaque assays. These data suggest that ISS may be useful in the treatment and control of genital herpes in humans.

Genital herpes simplex virus infection in the adolescent: special considerations for management

Genital herpes simplex virus (HSV) infections are increasingly common among adolescents. In developed countries, during the 1990s, adolescent HSV type 2 seroprevalence rates ranged from 4 to 30% depending on the population studied. The clinical diagnosis of genital herpes may be unreliable and laboratory testing is recommended. Aciclovir, valaciclovir, and famciclovir are three antiviral drugs that have proven efficacy in the treatment of genital herpes. These drugs can be used in the treatment of the first episode or for recurrent infections, or can be used long term to suppress recurrent infections. Once or twice daily administration regimens are preferable for adolescents for reasons of adherence, and because it avoids the need to take medication at school. Unproven remedies are used commonly and can be harmful. In addition to antiviral therapy, proper management of the adolescent with genital herpes should also include developmentally appropriate explanations of the diagnosis, treatment and potential complications, recommendations for symptomatic relief, screening for other sexually transmitted infections, and discussion of safer sexual practices. All adolescents should have follow-up visits to complete education and counseling and to assess compliance with antiviral therapy.

Tomorrow's challenges for herpesvirus management: potential applications of valacyclovir

Controlled trials suggest that acyclovir/valacyclovir can provide significant clinical benefits when used for prophylaxis in the immunocompromised host. These findings implicate herpesvirus(es) in the pathogenesis of complex medical conditions, including graft rejection and death. However, it is not known which of the 8 herpesviruses are important under particular circumstances. Prime candidates for triggering adverse outcomes are cytomegalovirus (CMV) in solid organ transplant recipients (causing rejection), CMV and human herpesvirus type 6 (HHV-6) in bone marrow transplant patients (causing marrow suppression), and herpes simplex virus, HHV-6, and CMV in AIDS patients (accelerating the rate of human immunodeficiency virus disease progression and death). Other diseases that may have a herpesvirus component or trigger susceptible antiviral agents include atherosclerosis and multiple sclerosis. In the future, clinicians should be alert to novel findings of randomized trials that may provide insight into the pathogenesis of these diseases and the contributions made by clinically silent herpesvirus infections.

Non-nucleoside inhibitors of herpesviruses

While the treatment of herpes simplex virus with acyclovir and similar nucleoside analogues was one of the first success stories in antiviral chemotherapy, substantial unmet medical needs remain for herpesvirus diseases. In particular, the increasing numbers of immunosuppressed people due to AIDS, transplantation, cancer and aging has driven the need for improved antivirals to treat diseases caused by human cytomegalovirus (HCMV). Currently available drugs for the treatment of HCMV diseases are less than ideal agents due to issues of toxicity, modest efficacy and poor oral bioavailability. High throughput screening of large compound collections for inhibitors of specific viral enzymes or inhibition of viral growth in cell culture have identified a number of new HCMV inhibitors at several pharmaceutical companies. These compounds act by inhibition of novel molecular targets such as the viral protein kinase, viral protease and viral proteins involved in DNA cleavage/packaging. In addition, novel non-nucleoside inhibitors of the herpesvirus DNA polymerase have recently been described. This review will summarise some of these research efforts and will focus on non-nucleoside compounds that directly inhibit a viral process.

Efficacies of gel formulations containing foscarnet, alone or combined with sodium lauryl sulfate, against establishment and reactivation of latent herpes simplex virus type 1

The influence of sodium lauryl sulfate (SLS) on the efficacies of gel formulations of foscarnet against herpes simplex virus type 1 (HSV-1) cutaneous lesions and on the establishment and reactivation of latent virus has been evaluated in a murine model of orofacial infection. Topical treatments were given twice daily for 3 days and were initiated at 6, 24, and 48 h after virus inoculation. The gel formulation that contained both 3% foscarnet and 5% SLS and that was administered within 48 h postinfection reduced the rate of development of herpetic skin lesions. This formulation also significantly decreased the viral content in skin tissues and in ipsilateral trigeminal ganglia when it was given within 24 and 6 h postinfection, respectively. A lower level of efficacy was observed for the gel formulation containing 3% foscarnet alone. Of prime interest, the gel formulation containing 5% SLS reduced significantly the mortality rate among mice in a zosteriform model of infection. Both formulations of foscarnet had no effect on the mean titers of reactivated virus in explant cultures of ipsilateral and contralateral trigeminal ganglia from latently infected mice. The use of a gel formulation containing combinations of foscarnet and SLS could represent an attractive approach for the treatment of herpetic mucocutaneous infections.